/EPR,[EAMPRO.M4.4.19.00720.DAMOS13],,DAMPAR_03 /EAD,$FFFF /EPK,{45/1/M4.4/19/007.20/DAMOS13//13304A75/060896/} PGM-Stand vom: 00-AUG-1996 00:00 /PNR,{007.20} /KNR,{19} /PRO,{19/007.20} /YNR,{Y 261 K20 448} /BEA,{} /DST,{13304A75},{},{} /TEL,{0000} /VAD,$C806 /SPC,1475 /UMR,297 /UTB,4 /SRC,58 /UMV,3 /UP,{I8051} /SGB,{M4.4} /ABL,3 /RFG,1 /SND,DSPTAB 12 /SND,DATA1 $F07E $FB67 $10000 /SND,CHNL_A $FBE0 /SND,CHNL_B $FBE8 /SND,TRGSEGAD $FBC0 /SND,DAT_MOD 1 /SND,TRG_MOD 37 /SND,S_DISTAB 0 /SND,S_CHNL 0 /SND,S_TRGID 0 /SND,S_TRGSEGAD 1 /SND,S_EXRAM 0 /SND,DISTAB_A $1316A Syncro 0 /SND,DISTAB_B $1317C TimeB 12 /SND,MAXNUM_A 8 /SND,MAXNUM_B 20 /MCK,PROT_TYP MCMESS /MCK,KOMKEN 1 /MCK,MCINI 0 /MCK,ZYLZA 5 /MCK,ZYLREI 1,2,4,5,3 /MCK,XRAMOF $0 /MCV,VSW XAZFKT /MCV,VSFG XTEFKT /MCV,VSWV XWEFKT /MCV,VSNS XNSOLL /MCV,VSWZ1 XDZWK1 /MCV,VSWZ2 XDZWK2 /MCV,VSWZ3 XDZWK3 /MCV,VSWZ4 XDZWK4 /MCV,VSWZ5 XDZWK5 /MCV,VSWZ6 XMCDUMMY /MCV,VSWZ7 XMCDUMMY /MCV,VSWZ8 XMCDUMMY /MCV,VSKF XDKFAK /MCV,VSMFA XDVMFA /MCV,VSMFL XDVMFL /MCV,VSLDS XTLFKT /MCV,VSLUC XDZWZZ /MCP,XVERST1 1 /MCP,XVERST2 2 /MCP,XVERST3 3 /MCP,XVERST4 4 /MCP,XVERST5 5 /MCP,XREFPE1 6 /MCP,XREFPE2 7 /MCP,XREFPE3 8 /MCP,XREFPE4 9 /MCP,XREFPE5 10 /MCP,XFALT 11 /MCP,XFALT2 12 /MCP,XFALT3 13 /MCP,XFALT4 14 /MCP,XFALT5 15 /MCP,NMOT 16 /MCP,TL 17 /MCP,TMOT 18 /MCP,ZWOUT 19 /MCP,UB 20 /MCP,FALLT 21 /MCP,N10 22 /MCP,XNSACTR 23 /MCP,Q02 24 /MCP,QAC 25 /MCP,QFS 26 /MCP,QVS 27 /MCP,X_ACPRESS 28 /MCP,XALRST 29 /MCP,XFR 30 /MCP,XFRA 31 /MCP,XFTEADH 32 /MCP,XFKTWL 33 /MCP,XFKTNS 34 /MCP,XIVHI 35 /MCP,XPDVRL 36 /MCP,XQADP 37 /MCP,XQSOL 38 /MCP,XSTAT 39 /MCP,XTRA 40 /MCP,XTATE 41 /MCP,XTATEI 42 /MCP,XWDKBL 43 /MCP,XNSOL 44 /MCP,Q16 45 /MCP,XFALMIT 46 /MCP,XKFAK1 47 /MCP,XFK_ANR 48 /MCP,DZW_KR 49 1,/SPZ,ABMIPHD,{Diagnose; number bm with inactive phase info},1 $C8FE,$C8FE /SPW,9,1, 0., 255. /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 2,/SPZ,ADSTKD,{number of driving cycles to delete errors (customer service value setting)},1 $F0CD,$F0CD /SPW,9,1, 0., 255. /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 3,/SPZ,ADWHF,{number of retries in case of faulty transfer},1 $F138,$F138 /SPW,9,1, 0., 255. /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 4,/SPZ,AESAZAD,{initial value for settling filter segment deviation for toothed disks adaptation} 1 $F255,$F255 /SPW,4,1, 0., 1.556396 /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 5,/SPZ,AFBKAT,{Number of defective areas (limit) for error message} 1 $F11F,$F11F /SPW,9,1, 1., 255. /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 6,/SPZ,AHEAGW,{Misfire frequency to achieve the statutory emission limits},1 $F244,$F244 /SPW,11,2, 0., 65535. /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 7,/SPZ,AHEKA,{misfire frequency to achieve a fuel cutoff},1 $F248,$F248 /SPW,9,1, 0., 255. /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 8,/SPZ,AHEKS,{misfire frequency to achieve catalyst damage},1 $F246,$F246 /SPW,11,2, 0., 65535. /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 9,/SPZ,AISDTE,{fuel-slosh detection threshold},1 $C980,$C980 /SPW,134,1, 0., 62.25586 /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 10,/SPZ,ANRZUEMX,{ignition threshold counter-active to STADAP},1 $F19A,$F19A /SPW,9,1, 0., 255. /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 11,/SPZ,ANZDPVK,{number of periods for ready-flag per usvk-monitoring-period},1 $F1DC,$F1DC /SPW,9,1, 1., 255. /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 12,/SPZ,ANZTP,{Collapse number of periods for continuous monitoring period},1 $F1DD,$F1DD /SPW,9,1, 1., 255. /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 13,/SPZ,APETEDX,{max. number of tests with fault diagnosis results for tank vent} 1 $C982,$C982 /SPW,9,1, 0., 255. /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 14,/SPZ,APTEDX,{max. number of commenced tests for tank vent diagnosis},1 $C981,$C981 /SPW,9,1, 0., 255. /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 15,/SPZ,ATRPRDY,{Number of trips to achieve readiness},1 $F19F,$F19F /SPW,9,1, 0., 255. /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 16,/SPZ,ATVFETTO,{upper limit for atvfett, CARB testers DLSSA},1 $131F9,$131F9 /SPW,237,1, 0., 10.2 /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 17,/SPZ,ATVFETTU,{lower limit for atvfett, CARB testers DLSSA},1 $131F8,$131F8 /SPW,237,1, 0., 10.2 /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 18,/SPZ,ATVMAGO,{upper limit for atvmager, CARB testers DLSSA},1 $131FB,$131FB /SPW,237,1, 0., 10.2 /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 19,/SPZ,ATVMAGU,{lower limit for atvmager, CARB testers DLSSA},1 $131FA,$131FA /SPW,237,1, 0., 10.2 /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 20,/SPZ,AVGIX,{table of the AV values},4 $CB5E,$CB5E /SPW,79,1, 0., 1. /SPX,10,1, 0., 256.,1 /SPY,0,0, 0., 0.,0 /FKX,9,5,0 /FKY,0,0,0 /ABL,0; 21,/SPZ,AVKATLRH,{Switch-Kat-amplitude ratio for lambda control behind Kat} 1 $F0EF,$F0EF /SPW,60,1, 0., 0.996094 /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 22,/SPZ,AVRALU {number NW-rev / combustion. reactivation for misfire detection after suppression},1 $F240,$F240 /SPW,9,1, 0., 255. /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 23,/SPZ,AVSAZAD {number of burns for linear shutdown up to the beginning of the toothed disks adaptation},1 $F23E,$F23E /SPW,9,1, 0., 255. /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 24,/SPZ,AZKOAS,{number of firings compressor OFF after start},1 $C94A,$C94A /SPW,280,1, 0., 10200. /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 25,/SPZ,AZLLTLM,{number zdg transition to LL-TL},7 $C892,$D0C6 /SPW,152,1, 0., 255. /SPX,168,1, 0., 0.,1202 /SPY,0,0, 0., 0.,0 /FKX,16,0,0 /FKY,0,0,0 /ABL,0; 26,/SPZ,AZMFS,{Number of lean-rich transitions for start edSLS},1 $C954,$C954 /SPW,9,1, 0., 255. /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 27,/SPZ,AZPLMESS,{Number of measurements for DF Plaus.check},1 $C9D5,$C9D5 /SPW,9,1, 1., 255. /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 28,/SPZ,AZPLTFA,{Number of measurements for Plaus.check TF},1 $C9E2,$C9E2 /SPW,9,1, 1., 255. /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 29,/SPZ,AZVANSA,{Number of ignitions VA after starting end},1 $F1DA,$F1DA /SPW,280,1, 0., 10200. /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 30,/SPZ,BMALMX,{counter maximum value for BM-gap outside search window},1 $F189,$F189 /SPW,9,1, 0., 255. /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 31,/SPZ,CDASE,{Codeword DASE off (EURO-coding)},1 $F257,$F257 /SPW,9,1, 0., 255. /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 32,/SPZ,CDBACO,{Codeword block title: ADC - channel output},1 $F134,$F134 /SPW,9,1, 0., 255. /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 33,/SPZ,CDBACR,{Codeword block title: ADC read},1 $F12E,$F12E /SPW,9,1, 0., 255. /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 34,/SPZ,CDBAK,{Codeword block title: Acknowledge},1 $F12F,$F12F /SPW,9,1, 0., 255. /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 35,/SPZ,CDBEND,{Codeword block title: diagnose end},1 $F12C,$F12C /SPW,9,1, 0., 255. /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 36,/SPZ,CDBFSD,{Codeword block title: clear memory fault (delete)},1 $F12B,$F12B /SPW,9,1, 0., 255. /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 37,/SPZ,CDBFSO,{Codeword block title: fault output},1 $F133,$F133 /SPW,9,1, 0., 255. /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 38,/SPZ,CDBFSOS,{Codeword block title: [D9] Fault Output (RB-Standard)},1 $F137,$F137 /SPW,9,1, 0., 255. /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 39,/SPZ,CDBFSR,{Codeword block title: Read fault memory},1 $F12D,$F12D /SPW,9,1, 0., 255. /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 40,/SPZ,CDBFSRS,{Codeword block title: [3A] Read fault memory (RB-Standard)},1 $F136,$F136 /SPW,9,1, 0., 255. /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 41,/SPZ,CDBNAK,{Codeword block title: No Acknowledge},1 $F130,$F130 /SPW,9,1, 0., 255. /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 42,/SPZ,CDBRAO,{Codeword block title: RAM issue (output)},1 $F131,$F131 /SPW,9,1, 0., 255. /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 43,/SPZ,CDBRAR,{Codeword block title: RAM lesen (read)},1 $F128,$F128 /SPW,9,1, 0., 255. /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 44,/SPZ,CDBRAW,{Codeword block title: RAM write},1 $F129,$F129 /SPW,9,1, 0., 255. /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 45,/SPZ,CDBROO,{Codeword block title: ROM issue (output)},1 $F132,$F132 /SPW,9,1, 0., 255. /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 46,/SPZ,CDBROR,{Codeword block title: ROM read (read)},1 $F12A,$F12A /SPW,9,1, 0., 255. /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 47,/SPZ,CDBSGO,{Codeword block title: SG - output identification (output)},1 $F135,$F135 /SPW,9,1, 0., 255. /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 48,/SPZ,CDCAAV,{Codeword CARB: shut-off valve active carbon filter (function)},13 $F65D,$F65D /SPW,9,1, 0., 255. /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,5,0,0 /FKY,0,0,0 /ABL,0; 49,/SPZ,CDCAAVE,{Codeword CARB: shut-off valve active carbon filter (output stage)},13 $F662,$F662 /SPW,9,1, 0., 255. /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,5,0,0 /FKY,0,0,0 /ABL,0; 50,/SPZ,CDCAGRF,{Codeword CARB: Monitoring EGR FLOW},13 $F649,$F649 /SPW,9,1, 0., 255. /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,5,0,0 /FKY,0,0,0 /ABL,0; 51,/SPZ,CDCASE,{Codeword CARB: Misfire detection, total (multiple), emission-relevant},13 $F5EF,$F5EF /SPW,9,1, 0., 255. /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,5,0,0 /FKY,0,0,0 /ABL,0; 52,/SPZ,CDCASE1,{Codeword CARB: Misfire detection CYL. 1, emission-relevant},13 $F5F4,$F5F4 /SPW,9,1, 0., 255. /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,5,0,0 /FKY,0,0,0 /ABL,0; 53,/SPZ,CDCASE2,{Codeword CARB: Misfire detection CYL. 2, emission-relevant},13 $F5F9,$F5F9 /SPW,9,1, 0., 255. /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,5,0,0 /FKY,0,0,0 /ABL,0; 54,/SPZ,CDCASE3,{Codeword CARB: Misfire detection CYL. 3, emission-relevant},13 $F608,$F608 /SPW,9,1, 0., 255. /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,5,0,0 /FKY,0,0,0 /ABL,0; 55,/SPZ,CDCASE4,{Codeword CARB: Misfire detection CYL. 4, emission-relevant},13 $F5FE,$F5FE /SPW,9,1, 0., 255. /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,5,0,0 /FKY,0,0,0 /ABL,0; 56,/SPZ,CDCASE5,{Codeword CARB: Misfire detection CYL. 5, emission-relevant},13 $F603,$F603 /SPW,9,1, 0., 255. /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,5,0,0 /FKY,0,0,0 /ABL,0; 57,/SPZ,CDCASK,{Codeword CARB: Misfire detection, total (multiple), catalyst-damaging},13 $F60D,$F60D /SPW,9,1, 0., 255. /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,5,0,0 /FKY,0,0,0 /ABL,0; 58,/SPZ,CDCASK1,{Codeword CARB: Misfire detection CYL. 1, catalyst-damaging},13 $F612,$F612 /SPW,9,1, 0., 255. /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,5,0,0 /FKY,0,0,0 /ABL,0; 59,/SPZ,CDCASK2,{Codeword CARB: Misfire detection CYL. 2, catalyst-damaging},13 $F617,$F617 /SPW,9,1, 0., 255. /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,5,0,0 /FKY,0,0,0 /ABL,0; 60,/SPZ,CDCASK3,{Codeword CARB: Misfire detection CYL. 3, catalyst-damaging},13 $F626,$F626 /SPW,9,1, 0., 255. /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,5,0,0 /FKY,0,0,0 /ABL,0; 61,/SPZ,CDCASK4,{Codeword CARB: Misfire detection CYL. 4, catalyst-damaging},13 $F61C,$F61C /SPW,9,1, 0., 255. /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,5,0,0 /FKY,0,0,0 /ABL,0; 62,/SPZ,CDCASK5,{Codeword CARB: Misfire detection CYL. 5, catalyst-damaging},13 $F621,$F621 /SPW,9,1, 0., 255. /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,5,0,0 /FKY,0,0,0 /ABL,0; 63,/SPZ,CDCBAA,{Codeword CARB: needs adaptation on velocity},13 $F70C,$F70C /SPW,9,1, 0., 255. /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,5,0,0 /FKY,0,0,0 /ABL,0; 64,/SPZ,CDCBM,{Codeword CARB: reference mark encoder},13 $F685,$F685 /SPW,9,1, 0., 255. /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,5,0,0 /FKY,0,0,0 /ABL,0; 65,/SPZ,CDCCGE,{Codeword CARB: CAN-interface, Timeout EGS},13 $F720,$F720 /SPW,9,1, 0., 255. /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,5,0,0 /FKY,0,0,0 /ABL,0; 66,/SPZ,CDCCIF,{Codeword CARB: CAN-interface, internal error},13 $F707,$F707 /SPW,9,1, 0., 255. /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,5,0,0 /FKY,0,0,0 /ABL,0; 67,/SPZ,CDCDF,{Codeword CARB: pressure sensor},13 $F743,$F743 /SPW,9,1, 0., 255. /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,5,0,0 /FKY,0,0,0 /ABL,0; 68,/SPZ,CDCDK,{Codeword CARB: DK - Potentiometer},13 $F694,$F694 /SPW,9,1, 0., 255. /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,5,0,0 /FKY,0,0,0 /ABL,0; 69,/SPZ,CDCDPL,{Codeword CARB: duration plus},13 $F67B,$F67B /SPW,9,1, 0., 255. /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,5,0,0 /FKY,0,0,0 /ABL,0; 70,/SPZ,CDCDST,{Codeword CARB: Tank pressure sensor},13 $F66C,$F66C /SPW,9,1, 0., 255. /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,5,0,0 /FKY,0,0,0 /ABL,0; 71,/SPZ,CDCDTV,{Codeword CARB: LR-adaptation ti-additivee},13 $F5E0,$F5E0 /SPW,9,1, 0., 255. /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,5,0,0 /FKY,0,0,0 /ABL,0; 72,/SPZ,CDCEGA,{Codeword CARB: unknown error output stage (output stages group A)},13 $F6DA,$F6DA /SPW,9,1, 0., 255. /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,5,0,0 /FKY,0,0,0 /ABL,0; 73,/SPZ,CDCEGB,{Codeword CARB: unknown error output stage (output stages group B)},13 $F6DF,$F6DF /SPW,9,1, 0., 255. /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,5,0,0 /FKY,0,0,0 /ABL,0; 74,/SPZ,CDCEGC,{Codeword CARB: unknown error output stage (output stages group C)},13 $F6E4,$F6E4 /SPW,9,1, 0., 255. /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,5,0,0 /FKY,0,0,0 /ABL,0; 75,/SPZ,CDCEGD,{Codeword CARB: unknown error output stage (output stages group D)},13 $F6E9,$F6E9 /SPW,9,1, 0., 255. /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,5,0,0 /FKY,0,0,0 /ABL,0; 76,/SPZ,CDCEGE,{Codeword CARB: unknown error output stage (output stages group E)},13 $F6EE,$F6EE /SPW,9,1, 0., 255. /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,5,0,0 /FKY,0,0,0 /ABL,0; 77,/SPZ,CDCEGF,{Codeword CARB: unknown error output stage (output stages group F)},13 $F6F3,$F6F3 /SPW,9,1, 0., 255. /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,5,0,0 /FKY,0,0,0 /ABL,0; 78,/SPZ,CDCEV1,{Codeword CARB: EV of Cyl. 1},13 $F6AD,$F6AD /SPW,9,1, 0., 255. /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,5,0,0 /FKY,0,0,0 /ABL,0; 79,/SPZ,CDCEV2,{Codeword CARB: EV of Cyl. 2},13 $F6B2,$F6B2 /SPW,9,1, 0., 255. /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,5,0,0 /FKY,0,0,0 /ABL,0; 80,/SPZ,CDCEV3,{Codeword CARB: EV of Cyl. 3},13 $F6B7,$F6B7 /SPW,9,1, 0., 255. /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,5,0,0 /FKY,0,0,0 /ABL,0; 81,/SPZ,CDCEV4,{Codeword CARB: EV of Cyl. 4},13 $F6BC,$F6BC /SPW,9,1, 0., 255. /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,5,0,0 /FKY,0,0,0 /ABL,0; 82,/SPZ,CDCEV5,{Codeword CARB: EV of Cyl. 5},13 $F6C1,$F6C1 /SPW,9,1, 0., 255. /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,5,0,0 /FKY,0,0,0 /ABL,0; 83,/SPZ,CDCFRA,{Codeword CARB: LR-adaptation multiplicative},13 $F5D6,$F5D6 /SPW,9,1, 0., 255. /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,5,0,0 /FKY,0,0,0 /ABL,0; 84,/SPZ,CDCHSH,{Codeword CARB: lambda probes heating behind catalytic converter},13 $F5C2,$F5C2 /SPW,9,1, 0., 255. /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,5,0,0 /FKY,0,0,0 /ABL,0; 85,/SPZ,CDCHSV,{Codeword CARB: lambda probes heating before catalytic converter},13 $F5BD,$F5BD /SPW,9,1, 0., 255. /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,5,0,0 /FKY,0,0,0 /ABL,0; 86,/SPZ,CDCKAT,{Codeword CARB: catalytic conversion},13 $F5EA,$F5EA /SPW,9,1, 0., 255. /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,5,0,0 /FKY,0,0,0 /ABL,0; 87,/SPZ,CDCKRT,{Codeword CARB: knock control test pulse},13 $F702,$F702 /SPW,9,1, 0., 255. /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,5,0,0 /FKY,0,0,0 /ABL,0; 88,/SPZ,CDCKS1,{Codeword CARB: Knock Sensor 1},13 $F6F8,$F6F8 /SPW,9,1, 0., 255. /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,5,0,0 /FKY,0,0,0 /ABL,0; 89,/SPZ,CDCKS2,{Codeword CARB: Knock Sensor 2},13 $F6FD,$F6FD /SPW,9,1, 0., 255. /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,5,0,0 /FKY,0,0,0 /ABL,0; 90,/SPZ,CDCLASH,{Codeword CARB: Lambda probe aging behind cat},13 $F5D1,$F5D1 /SPW,9,1, 0., 255. /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,5,0,0 /FKY,0,0,0 /ABL,0; 91,/SPZ,CDCLATP,{Codeword CARB: Lambda sensor aging TP},13 $F5C7,$F5C7 /SPW,9,1, 0., 255. /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,5,0,0 /FKY,0,0,0 /ABL,0; 92,/SPZ,CDCLATV,{Codeword CARB: Lambda sensor aging TV},13 $F5CC,$F5CC /SPW,9,1, 0., 255. /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,5,0,0 /FKY,0,0,0 /ABL,0; 93,/SPZ,CDCLDAB,{Codeword CARB: boost pressure reduction},13 $F711,$F711 /SPW,9,1, 0., 255. /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,5,0,0 /FKY,0,0,0 /ABL,0; 94,/SPZ,CDCLDE,{Codeword CARB: boost pressure control valve (output stage)},13 $F6D5,$F6D5 /SPW,9,1, 0., 255. /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,5,0,0 /FKY,0,0,0 /ABL,0; 95,/SPZ,CDCLDO,{Codeword CARB: upper value exceeded; boost pressure curve},13 $F716,$F716 /SPW,9,1, 0., 255. /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,5,0,0 /FKY,0,0,0 /ABL,0; 96,/SPZ,CDCLDRA,{Codeword CARB: boost pressure control deviation},13 $F71B,$F71B /SPW,9,1, 0., 255. /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,5,0,0 /FKY,0,0,0 /ABL,0; 97,/SPZ,CDCLE,{Codeword CARB: load detection},13 $F748,$F748 /SPW,9,1, 0., 255. /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,5,0,0 /FKY,0,0,0 /ABL,0; 98,/SPZ,CDCLM,{Codeword CARB: LMM/HLM/HFM},13 $F68F,$F68F /SPW,9,1, 0., 255. /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,5,0,0 /FKY,0,0,0 /ABL,0; 99,/SPZ,CDCLSH,{Codeword CARB: Lambda-Sonde behind Kat},13 $F5B8,$F5B8 /SPW,9,1, 0., 255. /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,5,0,0 /FKY,0,0,0 /ABL,0; 100,/SPZ,CDCLSV,{Codeword CARB: Lambda-Sonde before Kat},13 $F5B3,$F5B3 /SPW,9,1, 0., 255. /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,5,0,0 /FKY,0,0,0 /ABL,0; 101,/SPZ,CDCLUEA,{Codeword CARB: fan output stage A},13 $F734,$F734 /SPW,9,1, 0., 255. /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,5,0,0 /FKY,0,0,0 /ABL,0; 102,/SPZ,CDCMFA,{Codeword CARB: MIL-externally determined},13 $F5E5,$F5E5 /SPW,9,1, 0., 255. /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,5,0,0 /FKY,0,0,0 /ABL,0; 103,/SPZ,CDCMFB,{Codeword CARB: MIL-request - management},13 $F6C6,$F6C6 /SPW,9,1, 0., 255. /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,5,0,0 /FKY,0,0,0 /ABL,0; 104,/SPZ,CDCN,{Codeword CARB: speed signal transmitter},13 $F680,$F680 /SPW,9,1, 0., 255. /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,5,0,0 /FKY,0,0,0 /ABL,0; 105,/SPZ,CDCPAC,{Codeword CARB: Pressure in the climate system},13 $F6A8,$F6A8 /SPW,9,1, 0., 255. /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,5,0,0 /FKY,0,0,0 /ABL,0; 106,/SPZ,CDCPH,{Codeword CARB: Cam sensor},13 $F68A,$F68A /SPW,9,1, 0., 255. /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,5,0,0 /FKY,0,0,0 /ABL,0; 107,/SPZ,CDCSGROM,{Codeword CARB: Control unit defective (ROM)},13 $F671,$F671 /SPW,9,1, 0., 255. /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,5,0,0 /FKY,0,0,0 /ABL,0; 108,/SPZ,CDCSLP,{Codeword CARB: Secondary Air Pump},13 $F635,$F635 /SPW,9,1, 0., 255. /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,5,0,0 /FKY,0,0,0 /ABL,0; 109,/SPZ,CDCSLPE,{Codeword CARB: Secondary Air Pump (Output stage)},13 $F63F,$F63F /SPW,9,1, 0., 255. /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,5,0,0 /FKY,0,0,0 /ABL,0; 110,/SPZ,CDCSLS,{Codeword CARB: Secondary Air System},13 $F630,$F630 /SPW,9,1, 0., 255. /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,5,0,0 /FKY,0,0,0 /ABL,0; 111,/SPZ,CDCSLV,{Codeword CARB: Secondary Air Valve},13 $F63A,$F63A /SPW,9,1, 0., 255. /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,5,0,0 /FKY,0,0,0 /ABL,0; 112,/SPZ,CDCSLVE,{Codeword CARB: Secondary Air Valve (Output stage)},13 $F644,$F644 /SPW,9,1, 0., 255. /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,5,0,0 /FKY,0,0,0 /ABL,0; 113,/SPZ,CDCSWE,{Codeword CARB: acceleration sensor detection of rough roads},13 $F62B,$F62B /SPW,9,1, 0., 255. /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,5,0,0 /FKY,0,0,0 /ABL,0; 114,/SPZ,CDCTA,{Codeword CARB: TANS},13 $F739,$F739 /SPW,9,1, 0., 255. /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,5,0,0 /FKY,0,0,0 /ABL,0; 115,/SPZ,CDCTES,{Codeword CARB: tank venting system},13 $F658,$F658 /SPW,9,1, 0., 255. /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,5,0,0 /FKY,0,0,0 /ABL,0; 116,/SPZ,CDCTESF,{Codeword CARB: tank venting system fine leak},13 $F64E,$F64E /SPW,9,1, 0., 255. /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,5,0,0 /FKY,0,0,0 /ABL,0; 117,/SPZ,CDCTESG,{Codeword CARB: tank venting system gross leak},13 $F653,$F653 /SPW,9,1, 0., 255. /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,5,0,0 /FKY,0,0,0 /ABL,0; 118,/SPZ,CDCTEVE,{Codeword CARB: tank venting valve output stage},13 $F667,$F667 /SPW,9,1, 0., 255. /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,5,0,0 /FKY,0,0,0 /ABL,0; 119,/SPZ,CDCTM,{Codeword CARB: TMOT},13 $F69E,$F69E /SPW,9,1, 0., 255. /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,5,0,0 /FKY,0,0,0 /ABL,0; 120,/SPZ,CDCTMUM,{Codeword CARB: TMOT-changeover},13 $F725,$F725 /SPW,9,1, 0., 255. /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,5,0,0 /FKY,0,0,0 /ABL,0; 121,/SPZ,CDCTRA,{Codeword CARB: LR-adaptation QL-additive},13 $F5DB,$F5DB /SPW,9,1, 0., 255. /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,5,0,0 /FKY,0,0,0 /ABL,0; 122,/SPZ,CDCTX,{Codeword CARB: temperature EBOX},13 $F6A3,$F6A3 /SPW,9,1, 0., 255. /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,5,0,0 /FKY,0,0,0 /ABL,0; 123,/SPZ,CDCTX1S,{Codeword CARB: Temperature EBOX 1. threshold},13 $F72A,$F72A /SPW,9,1, 0., 255. /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,5,0,0 /FKY,0,0,0 /ABL,0; 124,/SPZ,CDCTX2S,{Codeword CARB: Temperature EBOX 2. threshold},13 $F72F,$F72F /SPW,9,1, 0., 255. /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,5,0,0 /FKY,0,0,0 /ABL,0; 125,/SPZ,CDCUB,{Codeword CARB: UB},13 $F676,$F676 /SPW,9,1, 0., 255. /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,5,0,0 /FKY,0,0,0 /ABL,0; 126,/SPZ,CDCVFZ,{Codeword CARB: vehicle speed},13 $F699,$F699 /SPW,9,1, 0., 255. /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,5,0,0 /FKY,0,0,0 /ABL,0; 127,/SPZ,CDCWFS,{Codeword CARB: immobilizer},13 $F73E,$F73E /SPW,9,1, 0., 255. /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,5,0,0 /FKY,0,0,0 /ABL,0; 128,/SPZ,CDCZO,{Codeword CARB: idle plate open},13 $F6CB,$F6CB /SPW,9,1, 0., 255. /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,5,0,0 /FKY,0,0,0 /ABL,0; 129,/SPZ,CDCZS,{Codeword CARB: idle plate close},13 $F6D0,$F6D0 /SPW,9,1, 0., 255. /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,5,0,0 /FKY,0,0,0 /ABL,0; 130,/SPZ,CDDF,{Codeword for diagnosis ambient pressure sensor},1 $C9CD,$C9CD /SPW,9,1, 0., 255. /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 131,/SPZ,CDDST,{Codeword Tank pressure sensor - diagnose shut-off (EURO-coding)},1 $C9B2,$C9B2 /SPW,9,1, 0., 255. /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 132,/SPZ,CDHSH,{Codeword Heater diagnostics behind Kat (CDHSH = 0 => no diagnosis)},1 $C917,$C917 /SPW,9,1, 0., 1. /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 133,/SPZ,CDHSV,{Codeword Heater diagnostics before Kat (CDHSV = 0 => no diagnosis)},1 $C916,$C916 /SPW,9,1, 0., 1. /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 134,/SPZ,CDKAAV,{Codeword Customer: shut-off valve active carbon filter (function)},1 $F770,$F770 /SPW,9,1, 0., 255. /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 135,/SPZ,CDKAAVE,{Codeword Customer: shut-off valve active carbon filter (output stage)},1 $F771,$F771 /SPW,9,1, 0., 255. /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 136,/SPZ,CDKAGRF,{Codeword Customer: Monitoring EGR FLOW},1 $F76C,$F76C /SPW,9,1, 0., 255. /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 137,/SPZ,CDKASE,{Codeword Customer: Misfire detection, total (multiple), emission-relevant},1 $F75A,$F75A /SPW,9,1, 0., 255. /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 138,/SPZ,CDKASE1,{Codeword Customer: Misfire detection CYL. 1, emission-relevant},1 $F75B,$F75B /SPW,9,1, 0., 255. /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 139,/SPZ,CDKASE2,{Codeword Customer: Misfire detection CYL. 2, emission-relevant},1 $F75C,$F75C /SPW,9,1, 0., 255. /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 140,/SPZ,CDKASE3,{Codeword Customer: Misfire detection CYL. 3, emission-relevant},1 $F75F,$F75F /SPW,9,1, 0., 255. /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 141,/SPZ,CDKASE4,{Codeword Customer: Misfire detection CYL. 4, emission-relevant},1 $F75D,$F75D /SPW,9,1, 0., 255. /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 142,/SPZ,CDKASE5,{Codeword Customer: Misfire detection CYL. 5, emission-relevant},1 $F75E,$F75E /SPW,9,1, 0., 255. /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 143,/SPZ,CDKASK,{Codeword Customer: Misfire detection, total (multiple), catalyst-damaging},1 $F760,$F760 /SPW,9,1, 0., 255. /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 144,/SPZ,CDKASK1,{Codeword Customer: Misfire detection CYL. 1, catalyst-damaging},1 $F761,$F761 /SPW,9,1, 0., 255. /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 145,/SPZ,CDKASK2,{Codeword Customer: Misfire detection CYL. 2, catalyst-damaging},1 $F762,$F762 /SPW,9,1, 0., 255. /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 146,/SPZ,CDKASK3,{Codeword Customer: Misfire detection CYL. 3, catalyst-damaging},1 $F765,$F765 /SPW,9,1, 0., 255. /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 147,/SPZ,CDKASK4,{Codeword Customer: Misfire detection CYL. 4, catalyst-damaging},1 $F763,$F763 /SPW,9,1, 0., 255. /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 148,/SPZ,CDKASK5,{Codeword Customer: Misfire detection CYL. 5, catalyst-damaging},1 $F764,$F764 /SPW,9,1, 0., 255. /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 149,/SPZ,CDKAT,{Codeword Catalyst-diagnose in OBDII-Mode (inverse: europe-mode)},1 $F122,$F122 /SPW,9,1, 0., 255. /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 150,/SPZ,CDKBAA,{Codeword Customer: needs adaptation on velocity},1 $F793,$F793 /SPW,9,1, 0., 255. /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 151,/SPZ,CDKBM,{Codeword Customer: reference mark encoder},1 $F778,$F778 /SPW,9,1, 0., 255. /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 152,/SPZ,CDKBY1,{Codeword 1. Keybyte},1 $F13D,$F13D /SPW,9,1, 0., 255. /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 153,/SPZ,CDKBY2,{Codeword 2. Keybyte},1 $F13E,$F13E /SPW,9,1, 0., 255. /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 154,/SPZ,CDKCGE,{Codeword Customer: CAN-Interface, Timeout EGS},1 $F797,$F797 /SPW,9,1, 0., 255. /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 155,/SPZ,CDKCIF,{Codeword Customer: CAN-Interface, interner Fehler},1 $F792,$F792 /SPW,9,1, 0., 255. /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 156,/SPZ,CDKDF,{Codeword Customer: Pressure sensor},1 $F79E,$F79E /SPW,9,1, 0., 255. /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 157,/SPZ,CDKDK,{Codeword Customer: DK - Potentiometer},1 $F77B,$F77B /SPW,9,1, 0., 255. /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 158,/SPZ,CDKDPL,{Codeword Customer: Duration plus},1 $F776,$F776 /SPW,9,1, 0., 255. /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 159,/SPZ,CDKDST,{Codeword Customer: Tank pressure sensor},1 $F773,$F773 /SPW,9,1, 0., 255. /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 160,/SPZ,CDKDTV,{Codeword Customer: LR-adaptation ti-additivee},1 $F757,$F757 /SPW,9,1, 0., 255. /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 161,/SPZ,CDKEGA,{Codeword Customer: unknown output stage - error (output stage A)},1 $F789,$F789 /SPW,9,1, 0., 255. /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 162,/SPZ,CDKEGB,{Codeword Customer: unknown output stage - error (output stage B)},1 $F78A,$F78A /SPW,9,1, 0., 255. /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 163,/SPZ,CDKEGC,{Codeword Customer: unknown output stage - error (output stage C)},1 $F78B,$F78B /SPW,9,1, 0., 255. /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 164,/SPZ,CDKEGD,{Codeword Customer: unknown output stage - error (output stage D)},1 $F78C,$F78C /SPW,9,1, 0., 255. /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 165,/SPZ,CDKEGE,{Codeword Customer: unknown output stage - error (output stage E)},1 $F78D,$F78D /SPW,9,1, 0., 255. /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 166,/SPZ,CDKEGF,{Codeword Customer: unknown output stage - error (output stage F)},1 $F78E,$F78E /SPW,9,1, 0., 255. /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 167,/SPZ,CDKEV1,{Codeword Customer: EV of Cyl. 1},1 $F780,$F780 /SPW,9,1, 0., 255. /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 168,/SPZ,CDKEV2,{Codeword Customer: EV of Cyl. 2},1 $F781,$F781 /SPW,9,1, 0., 255. /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 169,/SPZ,CDKEV3,{Codeword Customer: EV of Cyl. 3},1 $F782,$F782 /SPW,9,1, 0., 255. /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 170,/SPZ,CDKEV4,{Codeword Customer: EV of Cyl. 4},1 $F783,$F783 /SPW,9,1, 0., 255. /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 171,/SPZ,CDKEV5,{Codeword Customer: EV of Cyl. 5},1 $F784,$F784 /SPW,9,1, 0., 255. /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 172,/SPZ,CDKFRA,{Codeword Customer: LR-multiplicative adaptation},1 $F755,$F755 /SPW,9,1, 0., 255. /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 173,/SPZ,CDKHSH,{Codeword Customer: lambda probes heating behind catalytic converter},1 $F751,$F751 /SPW,9,1, 0., 255. /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 174,/SPZ,CDKHSV,{Codeword Customer: lambda probes heating before catalytic converter},1 $F750,$F750 /SPW,9,1, 0., 255. /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 175,/SPZ,CDKKAT,{Codeword Customer: catalytic conversion},1 $F759,$F759 /SPW,9,1, 0., 255. /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 176,/SPZ,CDKKRT,{Codeword Customer: knock control test pulse},1 $F791,$F791 /SPW,9,1, 0., 255. /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 177,/SPZ,CDKKS1,{Codeword Customer: knock sensor 1},1 $F78F,$F78F /SPW,9,1, 0., 255. /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 178,/SPZ,CDKKS2,{Codeword Customer: knock sensor 2},1 $F790,$F790 /SPW,9,1, 0., 255. /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 179,/SPZ,CDKLASH,{Codeword Customer: lambda probe aging behind cat},1 $F754,$F754 /SPW,9,1, 0., 255. /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 180,/SPZ,CDKLATP,{Codeword Customer: lambda probe aging TP},1 $F752,$F752 /SPW,9,1, 0., 255. /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 181,/SPZ,CDKLATV,{Codeword Customer: lambda probe aging TV},1 $F753,$F753 /SPW,9,1, 0., 255. /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 182,/SPZ,CDKLDAB,{Codeword Customer: boost pressure reduction},1 $F794,$F794 /SPW,9,1, 0., 255. /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 183,/SPZ,CDKLDE,{Codeword Customer: boost pressure control valve (output stage)},1 $F788,$F788 /SPW,9,1, 0., 255. /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 184,/SPZ,CDKLDO,{Codeword Customer: boost pressure curve; upper value exceeded},1 $F795,$F795 /SPW,9,1, 0., 255. /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 185,/SPZ,CDKLDRA,{Codeword Customer: boost pressure control deviation},1 $F796,$F796 /SPW,9,1, 0., 255. /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 186,/SPZ,CDKLE,{Codeword Customer: load sensing},1 $F79F,$F79F /SPW,9,1, 0., 255. /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 187,/SPZ,CDKLM,{Codeword Customer: LMM/HLM/HFM},1 $F77A,$F77A /SPW,9,1, 0., 255. /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 188,/SPZ,CDKLSH,{Codeword Customer: Lambda probe behind Kat},1 $F74F,$F74F /SPW,9,1, 0., 255. /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 189,/SPZ,CDKLSV,{Codeword Customer: Lambda probe before Kat},1 $F74E,$F74E /SPW,9,1, 0., 255. /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 190,/SPZ,CDKLUEA,{Codeword Customer: Fan stage A},1 $F79B,$F79B /SPW,9,1, 0., 255. /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 191,/SPZ,CDKMFA,{Codeword Customer: MIL-externally determined},1 $F758,$F758 /SPW,9,1, 0., 255. /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 192,/SPZ,CDKMFB,{Codeword Customer: MIL-request - management},1 $F785,$F785 /SPW,9,1, 0., 255. /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 193,/SPZ,CDKN,{Codeword Customer: speed signal transmitter},1 $F777,$F777 /SPW,9,1, 0., 255. /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 194,/SPZ,CDKPAC,{Codeword Customer: Pressure in climate system},1 $F77F,$F77F /SPW,9,1, 0., 255. /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 195,/SPZ,CDKPH,{Codeword Customer: Cam sensor},1 $F779,$F779 /SPW,9,1, 0., 255. /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 196,/SPZ,CDKSGROM,{Codeword Customer: Control unit defective (ROM)},1 $F774,$F774 /SPW,9,1, 0., 255. /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 197,/SPZ,CDKSLP,{Codeword Customer: Secondary Air Pump},1 $F768,$F768 /SPW,9,1, 0., 255. /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 198,/SPZ,CDKSLPE,{Codeword Customer: Secondary Air Pump (Output stage)},1 $F76A,$F76A /SPW,9,1, 0., 255. /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 199,/SPZ,CDKSLS,{Codeword Customer: Secondary Air System},1 $F767,$F767 /SPW,9,1, 0., 255. /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 200,/SPZ,CDKSLV,{Codeword Customer: Secondary Air Valve},1 $F769,$F769 /SPW,9,1, 0., 255. /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 201,/SPZ,CDKSLVE,{Codeword Customer: Secondary Air Valve (Output stage)},1 $F76B,$F76B /SPW,9,1, 0., 255. /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 202,/SPZ,CDKSWE,{Codeword Customer: acceleration sensor detection of rough roads},1 $F766,$F766 /SPW,9,1, 0., 255. /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 203,/SPZ,CDKTA,{Codeword Customer: TANS},1 $F79C,$F79C /SPW,9,1, 0., 255. /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 204,/SPZ,CDKTES,{Codeword Customer: tank venting system},1 $F76F,$F76F /SPW,9,1, 0., 255. /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 205,/SPZ,CDKTESF,{Codeword Customer: tank venting system fine leak},1 $F76D,$F76D /SPW,9,1, 0., 255. /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 206,/SPZ,CDKTESG,{Codeword Customer: tank venting system gross leak},1 $F76E,$F76E /SPW,9,1, 0., 255. /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 207,/SPZ,CDKTEVE,{Codeword Customer: tank venting valve output stage},1 $F772,$F772 /SPW,9,1, 0., 255. /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 208,/SPZ,CDKTM,{Codeword Customer: TMOT},1 $F77D,$F77D /SPW,9,1, 0., 255. /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 209,/SPZ,CDKTMUM,{Codeword Tester: TMOT, Pullup Transistor},1 $F798,$F798 /SPW,9,1, 0., 255. /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 210,/SPZ,CDKTRA,{Codeword Customer: LR-adaptation QL-additive},1 $F756,$F756 /SPW,9,1, 0., 255. /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 211,/SPZ,CDKTX,{Codeword Customer: Temperature EBOX},1 $F77E,$F77E /SPW,9,1, 0., 255. /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 212,/SPZ,CDKTX1S,{Codeword Customer: EBOX Temperature error 1},1 $F799,$F799 /SPW,9,1, 0., 255. /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 213,/SPZ,CDKTX2S,{Codeword Customer: EBOX Temperatur error 2},1 $F79A,$F79A /SPW,9,1, 0., 255. /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 214,/SPZ,CDKUB,{Codeword Customer: UB},1 $F775,$F775 /SPW,9,1, 0., 255. /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 215,/SPZ,CDKVFZ,{Codeword Customer: vehicle speed},1 $F77C,$F77C /SPW,9,1, 0., 255. /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 216,/SPZ,CDKWFS,{Codeword Customer: immobilizer},1 $F79D,$F79D /SPW,9,1, 0., 255. /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 217,/SPZ,CDKZO,{Codeword Customer: idle plate open},1 $F786,$F786 /SPW,9,1, 0., 255. /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 218,/SPZ,CDKZS,{Codeword Customer: idle plate closed},1 $F787,$F787 /SPW,9,1, 0., 255. /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 219,/SPZ,CDLASH {Codeword Lambda probe aging diagnosis (SHK) in OBDII mode (inverse: European fashion},1 $F1F7,$F1F7 /SPW,9,1, 0., 255. /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 220,/SPZ,CDLATP {Codeword Lambda probe aging diagnosis (TP) in the OBDII mode (inverse: European fashion)},1 $F1F5,$F1F5 /SPW,9,1, 0., 255. /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 221,/SPZ,CDLATV {Codeword Lambda probe aging diagnosis (tv) in OBDII mode (inverse: European fashion)},1 $F1F6,$F1F6 /SPW,9,1, 0., 255. /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 222,/SPZ,CDLSH,{Codeword probe behind catalytic converter in the OBDII diagnostic mode (inverse: European fashion)},1 $F19B,$F19B /SPW,9,1, 0., 1. /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 223,/SPZ,CDLSV,{Codeword diagnostic probe in front of catalytic converter OBDII mode (inverse: European fashion)},1 $F0E7,$F0E7 /SPW,9,1, 0., 1. /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 224,/SPZ,CDRADR,{charming address for specific stimulation (wtf?)},1 $F146,$F146 /SPW,9,1, 0., 255. /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 225,/SPZ,CDSLS,{Euro-Byte for Diagnose Secondary Air System},1 $F126,$F126 /SPW,9,1, 0., 255. /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 226,/SPZ,CDSLSE,{Euro-Byte for Diagnose output stage Secondary air valve/pump},1 $F127,$F127 /SPW,9,1, 0., 255. /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 227,/SPZ,CDSWE,{Codeword DSWE shut-off (EURO-coding)},1 $F258,$F258 /SPW,9,1, 0., 255. /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 228,/SPZ,CDTAAV,{Codeword Tester: shut-off valve active carbon filter (function)},1 $F293,$F293 /SPW,9,1, 0., 255. /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 229,/SPZ,CDTAAVE,{Codeword Tester: Valve active carbon filter (Endst.)},1 $F294,$F294 /SPW,9,1, 0., 255. /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 230,/SPZ,CDTAGRF,{Codeword Tester: Überwachung EGR-FLOW},1 $F28F,$F28F /SPW,9,1, 0., 255. /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 231,/SPZ,CDTASE,{Codeword Tester: Aussetzererk., Summe, emission-relevant},1 $F27D,$F27D /SPW,9,1, 0., 255. /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 232,/SPZ,CDTASE1,{Codeword Tester: Misfire detection Cyl.1, emission-relevant},1 $F27E,$F27E /SPW,9,1, 0., 255. /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 233,/SPZ,CDTASE2,{Codeword Tester: Misfire detection Cyl.2, emission-relevant},1 $F27F,$F27F /SPW,9,1, 0., 255. /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 234,/SPZ,CDTASE3,{Codeword Tester: Misfire detection Cyl.3, emission-relevant},1 $F282,$F282 /SPW,9,1, 0., 255. /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 235,/SPZ,CDTASE4,{Codeword Tester: Misfire detection Cyl.4, emission-relevant},1 $F280,$F280 /SPW,9,1, 0., 255. /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 236,/SPZ,CDTASE5,{Codeword Tester: Misfire detection Cyl.5, emission-relevant},1 $F281,$F281 /SPW,9,1, 0., 255. /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 237,/SPZ,CDTASK,{Codeword Tester: Aussetzererk., Summe, catalyst-damaging},1 $F283,$F283 /SPW,9,1, 0., 255. /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 238,/SPZ,CDTASK1,{Codeword Tester: Misfire detection Cyl.1, catalyst-damaging},1 $F284,$F284 /SPW,9,1, 0., 255. /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 239,/SPZ,CDTASK2,{Codeword Tester: Misfire detection Cyl.2, catalyst-damaging},1 $F285,$F285 /SPW,9,1, 0., 255. /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 240,/SPZ,CDTASK3,{Codeword Tester: Misfire detection Cyl.3, catalyst-damaging},1 $F288,$F288 /SPW,9,1, 0., 255. /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 241,/SPZ,CDTASK4,{Codeword Tester: Misfire detection Cyl.4, catalyst-damaging},1 $F286,$F286 /SPW,9,1, 0., 255. /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 242,/SPZ,CDTASK5,{Codeword Tester: Misfire detection Cyl.5, catalyst-damaging},1 $F287,$F287 /SPW,9,1, 0., 255. /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 243,/SPZ,CDTBAA,{Codeword Tester: Bedarfsadaption am Anschlag},1 $F2B6,$F2B6 /SPW,9,1, 0., 255. /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 244,/SPZ,CDTBM,{Codeword Tester: Bezugsmarkengeber},1 $F29B,$F29B /SPW,9,1, 0., 255. /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 245,/SPZ,CDTCGE,{Codeword Tester: CAN-Interface, Timeout EGS},1 $F2BA,$F2BA /SPW,9,1, 0., 255. /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 246,/SPZ,CDTCIF,{Codeword Tester: CAN-Interface, interner Fehler},1 $F2B5,$F2B5 /SPW,9,1, 0., 255. /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 247,/SPZ,CDTDF,{Codeword Tester: pressure sensor},1 $F2C1,$F2C1 /SPW,9,1, 0., 255. /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 248,/SPZ,CDTDK,{Codeword Tester: DK - Potentiometer},1 $F29E,$F29E /SPW,9,1, 0., 255. /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 249,/SPZ,CDTDPL,{Codeword Tester: Dauerplus},1 $F299,$F299 /SPW,9,1, 0., 255. /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 250,/SPZ,CDTDST,{Codeword Tester: Drucksensor Tank},1 $F296,$F296 /SPW,9,1, 0., 255. /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 251,/SPZ,CDTDTV,{Codeword Tester: LR-adaptation ti-additive},1 $F27A,$F27A /SPW,9,1, 0., 255. /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 252,/SPZ,CDTEGA,{Codeword Tester: unknown error output stages (Gruppe A)},1 $F2AC,$F2AC /SPW,9,1, 0., 255. /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 253,/SPZ,CDTEGB,{Codeword Tester: unknown error output stages (Gruppe B)},1 $F2AD,$F2AD /SPW,9,1, 0., 255. /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 254,/SPZ,CDTEGC,{Codeword Tester: unknown error output stages (Gruppe C)},1 $F2AE,$F2AE /SPW,9,1, 0., 255. /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 255,/SPZ,CDTEGD,{Codeword Tester: unknown error output stages (Gruppe D)},1 $F2AF,$F2AF /SPW,9,1, 0., 255. /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 256,/SPZ,CDTEGE,{Codeword Tester: unknown error output stages (Gruppe E)},1 $F2B0,$F2B0 /SPW,9,1, 0., 255. /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 257,/SPZ,CDTEGF,{Codeword Tester: unknown error output stages (Gruppe F)},1 $F2B1,$F2B1 /SPW,9,1, 0., 255. /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 258,/SPZ,CDTES,{Codeword Tank vent diagnosis shut off (EURO-coding)},1 $F26C,$F26C /SPW,9,1, 0., 255. /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 259,/SPZ,CDTEV1,{Codeword Tester: EV of Cyl. 1},1 $F2A3,$F2A3 /SPW,9,1, 0., 255. /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 260,/SPZ,CDTEV2,{Codeword Tester: EV of Cyl. 2},1 $F2A4,$F2A4 /SPW,9,1, 0., 255. /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 261,/SPZ,CDTEV3,{Codeword Tester: EV of Cyl. 3},1 $F2A5,$F2A5 /SPW,9,1, 0., 255. /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 262,/SPZ,CDTEV4,{Codeword Tester: EV of Cyl. 4},1 $F2A6,$F2A6 /SPW,9,1, 0., 255. /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 263,/SPZ,CDTEV5,{Codeword Tester: EV of Cyl. 5},1 $F2A7,$F2A7 /SPW,9,1, 0., 255. /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 264,/SPZ,CDTFA,{Code word for diagnostic intake air temperature sensor},1 $F0E8,$F0E8 /SPW,9,1, 0., 255. /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 265,/SPZ,CDTFRA,{Codeword Tester: LR-adaptation multiplikativ},1 $F278,$F278 /SPW,9,1, 0., 255. /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 266,/SPZ,CDTHSH,{Codeword Tester: Lambda probe heating behind catalytic converter},1 $F274,$F274 /SPW,9,1, 0., 255. /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 267,/SPZ,CDTHSV,{Codeword Tester: Oxygen sensor heating before catalytic converter},1 $F273,$F273 /SPW,9,1, 0., 255. /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 268,/SPZ,CDTKAT,{Codeword Tester: Catalyst Conversion},1 $F27C,$F27C /SPW,9,1, 0., 255. /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 269,/SPZ,CDTKRT,{Codeword Tester: Knock Control Test Pulse},1 $F2B4,$F2B4 /SPW,9,1, 0., 255. /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 270,/SPZ,CDTKS1,{Codeword Tester: knock sensor 1},1 $F2B2,$F2B2 /SPW,9,1, 0., 255. /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 271,/SPZ,CDTKS2,{Zord Tester: knock sensor 2},1 $F2B3,$F2B3 /SPW,9,1, 0., 255. /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 272,/SPZ,CDTLASH,{Codeword Tester: Lambda probe aging behind cat},1 $F277,$F277 /SPW,9,1, 0., 255. /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 273,/SPZ,CDTLATP,{Codeword Tester: Lambda probe aging TP},1 $F275,$F275 /SPW,9,1, 0., 255. /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 274,/SPZ,CDTLATV,{Codeword Tester: Lambda probe aging TV},1 $F276,$F276 /SPW,9,1, 0., 255. /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 275,/SPZ,CDTLDAB,{Codeword Tester: Boost pressure reduction},1 $F2B7,$F2B7 /SPW,9,1, 0., 255. /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 276,/SPZ,CDTLDE,{Codeword Tester: Boost pressure control valve (Output stage)},1 $F2AB,$F2AB /SPW,9,1, 0., 255. /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 277,/SPZ,CDTLDO,{Codeword Tester: Exceeded upper value; Boost pressure},1 $F2B8,$F2B8 /SPW,9,1, 0., 255. /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 278,/SPZ,CDTLDRA,{Codeword Tester: Boost pressure deviation},1 $F2B9,$F2B9 /SPW,9,1, 0., 255. /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 279,/SPZ,CDTLE,{Codeword Tester: load sensing},1 $F2C2,$F2C2 /SPW,9,1, 0., 255. /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 280,/SPZ,CDTLM,{Codeword Tester: LMM/HLM/HFM},1 $F29D,$F29D /SPW,9,1, 0., 255. /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 281,/SPZ,CDTLSH,{Codeword Tester: Lambda probe behind catalytic converter},1 $F272,$F272 /SPW,9,1, 0., 255. /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 282,/SPZ,CDTLSV,{Codeword Tester: Oxygen sensor before catalytic converter},1 $F271,$F271 /SPW,9,1, 0., 255. /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 283,/SPZ,CDTLUEA,{Codeword Tester: Fan Stage A},1 $F2BE,$F2BE /SPW,9,1, 0., 255. /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 284,/SPZ,CDTMFA,{Codeword Tester: MIL-externally determined},1 $F27B,$F27B /SPW,9,1, 0., 255. /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 285,/SPZ,CDTMFB,{Codeword Tester: MIL-Request - management},1 $F2A8,$F2A8 /SPW,9,1, 0., 255. /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 286,/SPZ,CDTN,{Codeword Tester: Speed signal generator},1 $F29A,$F29A /SPW,9,1, 0., 255. /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 287,/SPZ,CDTPAC,{Codeword Tester: Pressure in climate system},1 $F2A2,$F2A2 /SPW,9,1, 0., 255. /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 288,/SPZ,CDTPH,{Codeword Tester: Cam Sensor},1 $F29C,$F29C /SPW,9,1, 0., 255. /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 289,/SPZ,CDTSGROM,{Codeword Tester: Control unit defective (ROM)},1 $F297,$F297 /SPW,9,1, 0., 255. /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 290,/SPZ,CDTSLP,{Codeword Tester: Secondary Air Pump},1 $F28B,$F28B /SPW,9,1, 0., 255. /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 291,/SPZ,CDTSLPE,{Codeword Tester: Secondary Air Pump (Output stage)},1 $F28D,$F28D /SPW,9,1, 0., 255. /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 292,/SPZ,CDTSLS,{Codeword Tester: Secondary Air System},1 $F28A,$F28A /SPW,9,1, 0., 255. /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 293,/SPZ,CDTSLV,{Codeword Tester: Secondary Air Valve},1 $F28C,$F28C /SPW,9,1, 0., 255. /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 294,/SPZ,CDTSLVE,{Codeword Tester: Secondary Air Valve (Output stage)},1 $F28E,$F28E /SPW,9,1, 0., 255. /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 295,/SPZ,CDTSWE,{Codeword Tester: Acceleration sensor for rough road detection.},1 $F289,$F289 /SPW,9,1, 0., 255. /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 296,/SPZ,CDTTA,{Codeword Tester: TANS},1 $F2BF,$F2BF /SPW,9,1, 0., 255. /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 297,/SPZ,CDTTES,{Codeword Tester: tank venting system},1 $F292,$F292 /SPW,9,1, 0., 255. /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 298,/SPZ,CDTTESF,{Codeword Tester: tank venting system fine leak},1 $F290,$F290 /SPW,9,1, 0., 255. /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 299,/SPZ,CDTTESG,{Codeword Tester: tank venting system gross leak},1 $F291,$F291 /SPW,9,1, 0., 255. /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 300,/SPZ,CDTTEVE,{Codeword Tester: tank venting valve output stage},1 $F295,$F295 /SPW,9,1, 0., 255. /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 301,/SPZ,CDTTM,{Codeword Tester: TMOT},1 $F2A0,$F2A0 /SPW,9,1, 0., 255. /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 302,/SPZ,CDTTMUM,{Codeword Tester: TMOT-change-over},1 $F2BB,$F2BB /SPW,9,1, 0., 255. /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 303,/SPZ,CDTTRA,{Codeword Tester: LR-adaptation QL-additiv},1 $F279,$F279 /SPW,9,1, 0., 255. /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 304,/SPZ,CDTTX,{Codeword Tester: Temperature EBOX},1 $F2A1,$F2A1 /SPW,9,1, 0., 255. /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 305,/SPZ,CDTTX1S,{Codeword Tester: Temperature EBOX 1. threshold},1 $F2BC,$F2BC /SPW,9,1, 0., 255. /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 306,/SPZ,CDTTX2S,{Codeword Tester: Temperature EBOX 2. threshold},1 $F2BD,$F2BD /SPW,9,1, 0., 255. /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 307,/SPZ,CDTUB,{Codeword Tester: UB},1 $F298,$F298 /SPW,9,1, 0., 255. /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 308,/SPZ,CDTVFZ,{Codeword Tester: vehicle speed},1 $F29F,$F29F /SPW,9,1, 0., 255. /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 309,/SPZ,CDTWFS,{Codeword Tester: immobilizer},1 $F2C0,$F2C0 /SPW,9,1, 0., 255. /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 310,/SPZ,CDTZO,{Codeword Tester: Open idle control -> CDTZOE},1 $F2A9,$F2A9 /SPW,9,1, 0., 255. /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 311,/SPZ,CDTZS,{Codeword Tester: Close idle adjuster -->CDTZSE},1 $F2AA,$F2AA /SPW,9,1, 0., 255. /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 312,/SPZ,CLRKA,{Code word for function O2 Kat-clearing},1 $131C3,$131C3 /SPW,9,1, 0., 255. /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 313,/SPZ,CNFLDB,{Configbyte for gear-dependent boost pressure control},1 $C9B4,$C9B4 /SPW,9,1, 0., 255. /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 314,/SPZ,CNFLLTL,{Configbyte for stop condition B_lltl, CNFLLTL = 0: not effective B_lltl},1 $13209,$13209 /SPW,9,1, 0., 255. /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 315,/SPZ,CNFSAG,{Configuration word for fuel cut off depending on the gear},1 $F1CE,$F1CE /SPW,9,1, 0., 255. /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 316,/SPZ,CNFSLV,{Configbyte DSLS = 1 : Bypass SLV-testing},1 $C953,$C953 /SPW,9,1, 0., 255. /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 317,/SPZ,CNFUEG,{Gear selection for activation of UE_LLTL%},1 $131A9,$131A9 /SPW,9,1, 0., 255. /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 318,/SPZ,CSCATT,{Eurobyte for SCAN-Tool},1 $F1A0,$F1A0 /SPW,9,1, 0., 255. /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 319,/SPZ,CUKWLL,{Control-Parameter W-share for UK in idle},1 $13223,$13223 /SPW,9,1, 0., 255. /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 320,/SPZ,CVS20,{Codeword for shutdown of VS20 - blocking},1 $F186,$F186 /SPW,9,1, 0., 255. /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 321,/SPZ,DDPAC,{Delta pressure threshold for AC pressure plausibility check},1 $C97B,$C97B /SPW,3,1, 0., 3451.965 /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 322,/SPZ,DDPTEAR,{Pressure difference threshold to cancel UD structure,1 $C987,$C987 /SPW,230,1,-32., 31.75 /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 323,/SPZ,DDPTEAV,{pressure differential threshold of detection blocked AAV / ACF},1 $C988,$C988 /SPW,230,1,-32., 31.75 /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 324,/SPZ,DDPTEBR,{Pressure difference threshold beginning AND build gradient measurement},1 $C989,$C989 /SPW,230,1,-32., 31.75 /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 325,/SPZ,DDPTEKO,{upper pressure difference threshold for compensation gradient},1 $C98A,$C98A /SPW,230,1,-32., 31.75 /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 326,/SPZ,DDPTEKU,{lower pressure difference threshold for compensation gradient},1 $C98B,$C98B /SPW,230,1,-32., 31.75 /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 327,/SPZ,DDPTEMR,{decrease in pressure gradient measurement difference of UD construction},1 $C98C,$C98C /SPW,230,1,-32., 31.75 /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 328,/SPZ,DDPTETV,{pressure difference threshold for detection TEV permanently open},1 $C98D,$C98D /SPW,230,1,-32., 31.75 /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 329,/SPZ,DECKSTAI,{Decrement-Step for STADAP-factor},13 $13363,$13363 /SPW,9,1, 0., 255. /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,3,0,0 /FKY,0,0,0 /ABL,0; 330,/SPZ,DFDE,{replacement value pressure sensor in error condition},1 $C9D1,$C9D1 /SPW,51,1, 0., 1.992188 /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 331,/SPZ,DFDKHA,{delta factor altitude adaptation},1 $F1A2,$F1A2 /SPW,48,1, 0., 0.255000E-2 /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 332,/SPZ,DFDTEAB,{load-threshold for fine leak test forbade},1 $C98E,$C98E /SPW,86,1,-1., 0.992188 /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 333,/SPZ,DFDTEAU,{load-threshold for diagnosis abort},1 $C98F,$C98F /SPW,86,1,-1., 0.992188 /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 334,/SPZ,DFRSLP1,{threshold Fr-change for DSLS first pump test},1 $C95C,$C95C /SPW,51,1, 0., 1.992188 /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 335,/SPZ,DFRSLP2,{threshold Fr-change for DSLS second test pump},1 $C95D,$C95D /SPW,51,1, 0., 1.992188 /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 336,/SPZ,DFRSLV1,{threshold for change in DSLS at first test valve},1 $C95A,$C95A /SPW,51,1, 0., 1.992188 /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 337,/SPZ,DFRSLV2,{threshold for change in DSLS in second test valve},1 $C95B,$C95B /SPW,51,1, 0., 1.992188 /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 338,/SPZ,DIMS,{wide input range for detection, all outputs},4 $1336E,$1336E /SPW,9,1, 0., 255. /SPX,9,1, 0., 4.,6 /SPY,0,0, 0., 0.,0 /FKX,5,0,0 /FKY,0,0,0 /ABL,0; 339,/SPZ,DINH4,{Change ignition angle range 4: Number of increments after WE hard},1 $F1B9,$F1B9 /SPW,9,1, 0., 255. /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 340,/SPZ,DINK1,{Change ignition angle range 1: Number of increments},1 $F1AF,$F1AF /SPW,9,1, 0., 255. /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 341,/SPZ,DINK2,{Change ignition angle range 2: Number of increments},1 $F1B1,$F1B1 /SPW,9,1, 0., 255. /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 342,/SPZ,DINK3,{Change ignition angle range 3: Number of increments before SA},1 $F1B5,$F1B5 /SPW,9,1, 0., 255. /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 343,/SPZ,DINK6,{Change ignition angle range 6: Reinsert number increments},1 $F1BB,$F1BB /SPW,9,1, 0., 255. /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 344,/SPZ,DINK7,{Change ignition angle range 7: Number of increments (BA)},1 $F1B3,$F1B3 /SPW,9,1, 0., 255. /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 345,/SPZ,DINW4,{ZWB4: Number of increments soft after WE},1 $F1B7,$F1B7 /SPW,9,1, 0., 255. /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 346,/SPZ,DKADN,{DK - threshold for charge pressure increase},7 $C85A,$E91E E9FC in 607 /SPW,272,1, 0., 95.83334 /SPX,120,1, 0., 7650.,1048 /SPY,0,0, 0., 0.,0 /FKX,8,0,0 /FKY,0,0,0 /ABL,0; 347,/SPZ,DKOVN,{Load threshold for overboost},1 $C9BA,$C9BA /SPW,272,1, 0., 95.83334 /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 348,/SPZ,DKRISNT,{Limit the integrator slope for zero test},1 $F225,$F225 /SPW,151,1, 0., 202.6557 /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 349,/SPZ,DLIN,{I - proportion negative},4 $13264,$13264 /SPW,9,1, 0., 255. /SPX,121,1, 0., 250.,13 /SPY,0,0, 0., 0.,0 /FKX,26,0,0 /FKY,0,0,0 /ABL,0; 350,/SPZ,DLIP,{I - proportion positive},4 $1324A,$1324A /SPW,9,1, 0., 255. /SPX,121,1, 0., 250.,13 /SPY,0,0, 0., 0.,0 /FKX,26,0,0 /FKY,0,0,0 /ABL,0; 351,/SPZ,DLPP,{P - proportion positiv},4 $13230,$13230 /SPW,9,1, 0., 255. /SPX,121,1, 0., 250.,13 /SPY,0,0, 0., 0.,0 /FKX,26,0,0 /FKY,0,0,0 /ABL,0; 352,/SPZ,DLUKW,{UK-threshold trigger throttle memory},1 $13224,$13224 /SPW,180,1, 0., 12.24 /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 353,/SPZ,DMXRLU,{Limit at max. Rough-running reference value change},1 $F23F,$F23F /SPW,16,1, 0., 32.98435 /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 354,/SPZ,DN10BURN,{Minimum speed increases for "combustion takes place"},1 $F196,$F196 /SPW,121,1, 0., 2550. /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 355,/SPZ,DNALUM,{Delta n for suppression misfire detection},7 $13150,$14288 /SPW,17,1, 0., 80330.14 /SPX,168,1, 0., 0.,1202 /SPY,0,0, 0., 0.,0 /FKX,16,0,0 /FKY,0,0,0 /ABL,0; 356,/SPZ,DNLDROVN,{negative speed gradient for overboost},7 $C85E,$E92E /SPW,125,1, 0., 80645.16 /SPX,120,1, 0., 7650.,1048 /SPY,0,0, 0., 0.,0 /FKX,8,0,0 /FKY,0,0,0 /ABL,0; 357,/SPZ,DNMAX,{Speed hysteresis for speed limitation},1 $F1D3,$F1D3 /SPW,127,1, 0., 7650. /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 358,/SPZ,DNMXZAD,{dynamic threshold for termination of the tooth disc adaptation},1 $F256,$F256 /SPW,204,1, 0., 382.5 /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 359,/SPZ,DNSAH,{Delta n SA high relative to nWE},1 $F1CC,$F1CC /SPW,127,1, 0., 7650. /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 360,/SPZ,DNSAL,{Delta n SA low relative to nWE},1 $F1C1,$F1C1 /SPW,127,1, 0., 7650. /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 361,/SPZ,DNSLL,{Fuel cut-off hysteresis at WE idle},1 $F1C2,$F1C2 /SPW,127,1, 0., 7650. /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 362,/SPZ,DNWEK,{Delta n for WE during AC},1 $F1C3,$F1C3 /SPW,127,1, 0., 7650. /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 363,/SPZ,DNZB,{Delta - NSOLL for AEO - Switching},1 $F1BE,$F1BE /SPW,121,1, 0., 2550. /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 364,/SPZ,DPDLDRN,{pressure difference for dia LDR - negative control deviation},1 $13211,$13211 /SPW,180,1, 0., 12.24 /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 365,/SPZ,DPDLDRP,{pressure difference for dia LDR - positive control deviation},1 $13210,$13210 /SPW,180,1, 0., 12.24 /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 366,/SPZ,DPILDRN,{Deviation for Setting the I component},7 $13164,$14308 /SPW,180,1, 0., 12.192 /SPX,120,1, 0., 7650.,1048 /SPY,0,0, 0., 0.,0 /FKX,8,0,0 /FKY,0,0,0 /ABL,0; 367,/SPZ,DPTEBO,{upper pressure difference threshold for early diagnosis},1 $C990,$C990 /SPW,133,1,-31.25, 31.00586 /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 368,/SPZ,DPTEDUD,{Lower pressure threshold prior to the test},1 $C984,$C984 /SPW,133,1,-31.25, 31.00586 /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 369,/SPZ,DPTEDWD,{Pressure difference measurement before negative pressure decay gradient},1 $C991,$C991 /SPW,133,1,-31.25, 31.00586 /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 370,/SPZ,DPTEMN,{Min plausible pressure difference},1 $C9B1,$C9B1 /SPW,133,1,-31.25, 31.00586 /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 371,/SPZ,DPTEMX,{Max plausible pressure difference},1 $C9B0,$C9B0 /SPW,133,1,-31.25, 31.00586 /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 372,/SPZ,DQAMN,{lower limit required for adaptation},1 $C944,$C944 /SPW,138,1, 0., 102. /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 373,/SPZ,DQAMX,{upper limit required for adaptation},1 $C943,$C943 /SPW,138,1, 0., 102. /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 374,/SPZ,DQAX,{Maximaler Adaptionshub der Luftvorsteuerung},1 $C941,$C941 /SPW,138,1, 0., 102. /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 375,/SPZ,DQDBLE,{delta air volume threshold for LL-Vol replacement value at DK error},1 $F218,$F218 /SPW,135,1, 0., 408. /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 376,/SPZ,DQDPN,{Terminating dashpot},4 $13318,$13318 /SPW,138,1, 0., 102. /SPX,124,1, 0., 7680.,12 /SPY,0,0, 0., 0.,0 /FKX,17,4,0 /FKY,0,0,0 /ABL,0; 377,/SPZ,DQFSKOM {air pilot control raising inlaid with moving stage and switched. air conditioning},4 $CB01,$CB01 /SPW,138,1, 0., 102. /SPX,169,1,-80., 176.,23 /SPY,0,0, 0., 0.,0 /FKX,17,4,0 /FKY,0,0,0 /ABL,0; 378,/SPZ,DQLLTL,{Delta air during the transition from LL TL},1 $C939,$C939 /SPW,138,1, 0., 102. /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 379,/SPZ,DQMN,{Maximum negative control range},1 $131C0,$131C0 /SPW,138,1, 0., 102. /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 380,/SPZ,DQMNAZNS,{maximum number reglerhub negative for ignition after start},1 $131C1,$131C1 /SPW,138,1, 0., 102. /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 381,/SPZ,DQMX,{Maximum positive control range},1 $131BF,$131BF /SPW,138,1, 0., 102. /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 382,/SPZ,DSCONF,{Codeword switching VS20/McMess-Protocol},1 $F187,$F187 /SPW,9,1, 0., 255. /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 383,/SPZ,DSLSPULS,{Valve opening at DSLS for pump testing},1 $C968,$C968 /SPW,163,1, 0., 99.60938 /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 384,/SPZ,DTAPL,{threshold value for Plaus.check temperature sensor},1 $C9E1,$C9E1 /SPW,170,1, 0., 255. /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 385,/SPZ,DTATEH,{delta duty cycle for switching hysteresis period},1 $F10E,$F10E /SPW,163,1, 0., 99.60938 /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 386,/SPZ,DTLALUM,{Delta tL for suppression Misfire detection},7 $13152,$14298 /SPW,19,1, 0., 342.7419 /SPX,168,1, 0., 0.,1202 /SPY,0,0, 0., 0.,0 /FKX,16,0,0 /FKY,0,0,0 /ABL,0; 387,/SPZ,DTLDLD,{Delta TL for diagnosis maximum LDR controlled variable (Delta TLUL)},1 $13212,$13212 /SPW,180,1, 0., 12.24 /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 388,/SPZ,DTLDLEO,{upper limit of plausibility diagnostics load sensing},1 $1321D,$1321D /SPW,51,1, 0., 1.992188 /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 389,/SPZ,DTLDLEUH,{height-dependent lower limit of plausibility diagnostics load sensing},7 $C8B2,$D496 /SPW,51,1, 0., 1.992188 /SPX,51,1, 0., 0.,678 /SPY,0,0, 0., 0.,0 /FKX,16,0,0 /FKY,0,0,0 /ABL,0; 390,/SPZ,DTLFU,{delta - tl tl threshold for - filter - Switching},1 $1321C,$1321C /SPW,180,1, 0., 12.24 /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 391,/SPZ,DTLUEGR,{Group of support points of the load signal difference for the transition function},6 $1310E,$1341A /SPW,0,0, 0., 0. /SPX,180,1, 0., 12.24,32 /SPY,0,0, 0., 0.,0 /FKX,8,0,0 /FKY,0,0,0 /ABL,2; 392,/SPZ,DTLUL,{Hysterese for overboost - tL},1 $13214,$13214 /SPW,180,1, 0., 12.24 /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 393,/SPZ,DTLWE,{tL - Hysterese für TLSN},1 $F1CD,$F1CD /SPW,180,1, 0., 12.24 /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 394,/SPZ,DTLWGR,{Stützstellenverteilung delta-tlw},6 $1310C,$13407 /SPW,0,0, 0., 0. /SPX,21,1, 0., 12.288,33 /SPY,0,0, 0., 0.,0 /FKX,16,0,0 /FKY,0,0,0 /ABL,2; 395,/SPZ,DTLWUK,{UK-threshold trigger throttle memory},1 $1321F,$1321F /SPW,184,1, 0., 12.24 /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 396,/SPZ,DTMDMA,{Distance between the motor temperature model for the starting temperature},1 $C9C2,$C9C2 /SPW,170,1, 0., 255. /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 397,/SPZ,DTMDMM,{Slope for motor temperature model per TDMM},1 $C9C3,$C9C3 /SPW,170,1, 0., 255. /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 398,/SPZ,DTMDMMH,{increased slope for motor temperature model per TDMM in case of error},1 $C9C4,$C9C4 /SPW,170,1, 0., 255. /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 399,/SPZ,DTMR,{Threshold hysteresis for start},1 $F0F2,$F0F2 /SPW,13,1, 0., 255. /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 400,/SPZ,DTSA,{SA - Abregelung},1 $F1CF,$F1CF /SPW,286,1, 0., 61.2 /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 401,/SPZ,DTVDN,{dtv lower threshold for fault detection in the fuel supply system},1 $C96F,$C96F /SPW,99,1,-512., 508. /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 402,/SPZ,DTVDX,{dtv upper threshold for fault detection in the fuel supply system},1 $C96E,$C96E /SPW,99,1,-512., 508. /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 403,/SPZ,DTVILDRN,{Delta duty cycle setting condition for I-Share (B_ISET = 1)},7 $13160,$142F8 /SPW,75,1, 0., 99.60938 /SPX,120,1, 0., 7650.,1048 /SPY,0,0, 0., 0.,0 /FKX,8,0,0 /FKY,0,0,0 /ABL,0; 404,/SPZ,DTVKAML,{Delta tv catalyst for clearing (air-mass-dependent)},4 $CA0D,$CA0D /SPW,206,1, 0., 1511.808 /SPX,107,1, 0., 409.6,9 /SPY,0,0, 0., 0.,0 /FKX,17,4,0 /FKY,0,0,0 /ABL,0; 405,/SPZ,DTVMN,{lower limit of the additive mixture adaptation per cycle},1 $F204,$F204 /SPW,99,1,-512., 508. /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 406,/SPZ,DTVMX,{upper limit of the additive mixture adaptation per cycle},1 $F203,$F203 /SPW,99,1,-512., 508. /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 407,/SPZ,DTVRN,{reduced lower limit of the correction factor dtv},1 $F20A,$F20A /SPW,99,1,-512., 508. /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 408,/SPZ,DTVRX,{reduced upper limit of the correction factor dtv},1 $F209,$F209 /SPW,99,1,-512., 508. /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 409,/SPZ,DUKK,{Threshold for short-term share},1 $13221,$13221 /SPW,25,1, 0., 1572.84 /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 410,/SPZ,DWDKLA,{delta Dk angle idle, limiting upward adaptation},1 $F21F,$F21F /SPW,272,1, 0., 95.83334 /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 411,/SPZ,DWKHLN,{delta ignition angle for Kat heating at idle},7 $C8D0,$D826 /SPW,291,1,-191.25, 0. /SPX,127,1, 0., 0.,919 /SPY,0,0, 0., 0.,0 /FKX,16,0,0 /FKY,0,0,0 /ABL,0; 412,/SPZ,DWKRSN,{Safety retard},7 $C8A0,$D406 /SPW,291,1,-191.25, 0. /SPX,127,1, 0., 0.,919 /SPY,0,0, 0., 0.,0 /FKX,16,0,0 /FKY,0,0,0 /ABL,0; 413,/SPZ,DWWE,{Step height of the firing angle control on the WE in part load},1 $131AE,$131AE /SPW,290,1, 0., 191.25 /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 414,/SPZ,DWWEA {Step height of the firing angle excitement in the termination of GR function in partial load},1 $131AD,$131AD /SPW,290,1, 0., 191.25 /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 415,/SPZ,DYAVS,{Num. Ignition with reduced step width-KR (DYVF) at load dynamics},1 $F236,$F236 /SPW,9,1, 0., 255. /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 416,/SPZ,DYNOBC,{Multiplier for DYNOBK: DYNOBC = DYNOBK},7 $C866,$E94E /SPW,146,1, 2.294531, 585.1054 /SPX,120,1, 0., 7650.,1048 /SPY,0,0, 0., 0.,0 /FKX,8,0,0 /FKY,0,0,0 /ABL,0; 417,/SPZ,DYNOBE,{Load difference threshold for detection of overboost},7 $C85C,$E926 /SPW,272,1, 0., 95.83334 /SPX,120,1, 0., 7650.,1048 /SPY,0,0, 0., 0.,0 /FKX,8,0,0 /FKY,0,0,0 /ABL,0; 418,/SPZ,DYNOBK,{speed regulation time overboost (see DYNOBC)},7 $C864,$E946 /SPW,143,1, 0., 18.21312 /SPX,120,1, 0., 7650.,1048 /SPY,0,0, 0., 0.,0 /FKX,8,0,0 /FKY,0,0,0 /ABL,0; 419,/SPZ,DYNOBT,{Processing overboost},7 $C862,$E93E /SPW,142,1, 0., 72.85248 /SPX,120,1, 0., 7650.,1048 /SPY,0,0, 0., 0.,0 /FKX,8,0,0 /FKY,0,0,0 /ABL,0; 420,/SPZ,DYVF,{gradually shortened wide-KR with load dynamics},1 $F23B,$F23B /SPW,9,1, 0., 255. /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 421,/SPZ,DYWVF,{Dynamic lead early adjustment},1 $F237,$F237 /SPW,290,1, 0., 191.25 /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 422,/SPZ,DZDKHAN,{Delta Time constant ZDKHA neg.},1 $F1A3,$F1A3 /SPW,282,1, 0.,0.0153 /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 423,/SPZ,DZDKHAP,{Delta Time constant ZDKHA pos.},1 $F1A4,$F1A4 /SPW,283,1, 0., 0.484500E-3 /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 424,/SPZ,DZUE1,{Change ignition angle range 1: Number of ignitions},1 $F1AE,$F1AE /SPW,9,1, 0., 255. /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 425,/SPZ,DZUE2,{Change ignition angle range 2: Number of ignitions},1 $F1B0,$F1B0 /SPW,9,1, 0., 255. /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 426,/SPZ,DZUE3,{Change ignition angle range 3: Number of ignitions},1 $F1B4,$F1B4 /SPW,9,1, 0., 255. /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 427,/SPZ,DZUE3G,{ZWB3: stated number of independent transition ignition},4 $1322A,$1322A /SPW,9,1, 0., 255. /SPX,9,1, 0., 5.,57 /SPY,0,0, 0., 0.,0 /FKX,6,0,0 /FKY,0,0,0 /ABL,0; 428,/SPZ,DZUE6,{ZWB6: number of ignition reinstate},1 $F1BA,$F1BA /SPW,9,1, 0., 255. /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 429,/SPZ,DZUE7,{ZWB7: number of ignitions (BA)},1 $F1B2,$F1B2 /SPW,9,1, 0., 255. /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 430,/SPZ,DZUH4,{ZWB4: Number of ignitions WE hard},1 $F1B8,$F1B8 /SPW,9,1, 0., 255. /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 431,/SPZ,DZUW4,{ZWB4: Number of ignitions WE soft},1 $F1B6,$F1B6 /SPW,9,1, 0., 255. /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 432,/SPZ,DZWFM,{maximum case depth difference},1 $F23A,$F23A /SPW,290,1, 0., 191.25 /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 433,/SPZ,DZWUELL,{delta ZW für UE_LLTL-Funktion},1 $131AC,$131AC /SPW,290,1, 0., 191.25 /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 434,/SPZ,FABMXN,{Maximum boost pressure reduction (factor min.)},7 $C852,$E8FE /SPW,59,1, 0.390625E-2, 1. /SPX,120,1, 0., 7650.,1048 /SPY,0,0, 0., 0.,0 /FKX,8,0,0 /FKY,0,0,0 /ABL,0; 435,/SPZ,FABSALU,{Speed ??regulation factor acceleration signal detection in rough roads},1 $F250,$F250 /SPW,46,1, 0., 4.085802 /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 436,/SPZ,FDKHAO,{upper limit for altitude adaptation factor},1 $F1A5,$F1A5 /SPW,51,1, 0., 1.992188 /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 437,/SPZ,FDKHAU,{lower limit for altitude adaptation factor},1 $F1A6,$F1A6 /SPW,51,1, 0., 1.992188 /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 438,/SPZ,FDMLFTEF,{characteristic factor for exp. Terminating purge},4 $13329,$13329 /SPW,78,1, 0.390625E-2, 1.003906 /SPX,108,1, 0.,0.0301176,3 /SPY,0,0, 0., 0.,0 /FKX,17,4,0 /FKY,0,0,0 /ABL,0; 439,/SPZ,FFTEFVA,{Progression in purge rates to control},4 $CAB7,$CAB7 /SPW,77,1, 0., 16. /SPX,109,1, 0.,0.0627451,5 /SPY,0,0, 0., 0.,0 /FKX,17,4,0 /FKY,0,0,0 /ABL,0; 440,/SPZ,FGAT0,{Injection basic adjustment factor 0},1 $C932,$C932 /SPW,51,1, 0., 1.992188 /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 441,/SPZ,FHADSL,{min. Height factor DSLS},1 $C962,$C962 /SPW,51,1, 0., 1.992188 /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 442,/SPZ,FHOKSTM,{Height correction factor influence for startup injection},7 $C8F6,$EE4E /SPW,60,1, 0., 0.996094 /SPX,168,1, 0., 0.,1202 /SPY,0,0, 0., 0.,0 /FKX,16,0,0 /FKY,0,0,0 /ABL,0; 443,/SPZ,FHOMN,{plausibility lower limit for height correction factor},1 $C9D3,$C9D3 /SPW,51,1, 0., 1.992188 /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 444,/SPZ,FHOMX,{plausibility upper limit for height correction factor},1 $C9D4,$C9D4 /SPW,51,1, 0., 1.992188 /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 445,/SPZ,FHOPLS,{Plausibility limit for height correction factor},1 $C9CE,$C9CE /SPW,51,1, 0., 1.992188 /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 446,/SPZ,FIA1ZAD,{filter factor adaptation value 1 of the toothed disc adaptation},1 $F251,$F251 /SPW,58,1, 0., 0.124512 /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 447,/SPZ,FIA2ZAD,{filter factor adaptation value 2 of the toothed disc adaptation},1 $F252,$F252 /SPW,58,1, 0., 0.124512 /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 448,/SPZ,FIAMALU,{Increase factor for filter Multiple Misfire detection},1 $F242,$F242 /SPW,72,1, 0., 3.984375 /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 449,/SPZ,FIBSALU,{Filter factor acceleration signal detection in rough roads},1 $F24F,$F24F /SPW,32,1,0.0119507, 3.047424 /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 450,/SPZ,FIEZAD,{transient filter filter factor of toothed disks adaptation},1 $F253,$F253 /SPW,58,1, 0., 0.124512 /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 451,/SPZ,FIMALU,{Filter Factor Multiple Misfire detection},1 $F243,$F243 /SPW,60,1, 0., 0.996094 /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 452,/SPZ,FIMHU,{factor hard pulse},4 $132B8,$132B8 /SPW,72,1, 0., 3.984375 /SPX,10,1, 0., 15.,58 /SPY,0,0, 0., 0.,0 /FKX,16,0,0 /FKY,0,0,0 /ABL,0; 453,/SPZ,FIMWU,{factor soft pulse},4 $132A8,$132A8 /SPW,72,1, 0., 3.984375 /SPX,10,1, 0., 15.,58 /SPY,0,0, 0., 0.,0 /FKX,16,0,0 /FKY,0,0,0 /ABL,0; 454,/SPZ,FKMLM,{maximum correction factor of the air mass after heating},2 $F0C3,$FA93 /SPW,54,1, 1., 1.996094 /SPX,168,1,-44., 150.,22 /SPY,0,0, 0., 0.,0 /FKX,4,0,0 /FKY,0,0,0 /ABL,1; 455,/SPZ,FKSM,{Cold start factor},7 $C8C8,$D7E6 /SPW,73,1, 0., 31.875 /SPX,168,1, 0., 0.,1202 /SPY,0,0, 0., 0.,0 /FKX,16,0,0 /FKY,0,0,0 /ABL,0; 456,/SPZ,FKTEDGK,{Evaluation factor compensation gradient},4 $CB78,$CB78 /SPW,81,1, 0., 4. /SPX,80,1, 0., 1.,38 /SPY,0,0, 0., 0.,0 /FKX,17,4,0 /FKY,0,0,0 /ABL,0; 457,/SPZ,FLCAAV,{debouncing error: Valve active carbon filter (Funktion)},1 $F57E,$F57E /SPW,9,1, 0., 255. /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 458,/SPZ,FLCAAVE,{debouncing error: Valve active carbon filter (Endstufe)},1 $F57F,$F57F /SPW,9,1, 0., 255. /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 459,/SPZ,FLCAGRF,{debouncing error: Monitoring EGR FLOW},1 $F57A,$F57A /SPW,9,1, 0., 255. /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 460,/SPZ,FLCASE,{debouncing error: Misfire detection, Summe (multiple), emission-relevant} 1 $F568,$F568 /SPW,9,1, 0., 255. /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 461,/SPZ,FLCASE1,{debouncing error: Misfire detection CYL. 1, emission-relevant},1 $F569,$F569 /SPW,9,1, 0., 255. /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 462,/SPZ,FLCASE2,{debouncing error: Misfire detection CYL. 2, emission-relevant},1 $F56A,$F56A /SPW,9,1, 0., 255. /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 463,/SPZ,FLCASE3,{debouncing error: Misfire detection CYL. 3, emission-relevant},1 $F56D,$F56D /SPW,9,1, 0., 255. /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 464,/SPZ,FLCASE4,{debouncing error: Misfire detection CYL. 4, emission-relevant},1 $F56B,$F56B /SPW,9,1, 0., 255. /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 465,/SPZ,FLCASE5,{debouncing error: Misfire detection CYL. 5, emission-relevant},1 $F56C,$F56C /SPW,9,1, 0., 255. /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 466,/SPZ,FLCASK,{debouncing error: Misfire detection, Summe (multiple), catalyst-damaging} 1 $F56E,$F56E /SPW,9,1, 0., 255. /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 467,/SPZ,FLCASK1,{debouncing error: Misfire detection CYL. 1, catalyst-damaging},1 $F56F,$F56F /SPW,9,1, 0., 255. /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 468,/SPZ,FLCASK2,{debouncing error: Misfire detection CYL. 2, catalyst-damaging},1 $F570,$F570 /SPW,9,1, 0., 255. /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 469,/SPZ,FLCASK3,{debouncing error: Misfire detection CYL. 3, catalyst-damaging},1 $F573,$F573 /SPW,9,1, 0., 255. /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 470,/SPZ,FLCASK4,{debouncing error: Misfire detection CYL. 4, catalyst-damaging},1 $F571,$F571 /SPW,9,1, 0., 255. /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 471,/SPZ,FLCASK5,{debouncing error: Misfire detection CYL. 5, catalyst-damaging},1 $F572,$F572 /SPW,9,1, 0., 255. /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 472,/SPZ,FLCBAA,{debouncing error: Bedarfsadaption am Anschlag},1 $F5A1,$F5A1 /SPW,9,1, 0., 255. /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 473,/SPZ,FLCBM,{debouncing error: Bezugsmarkengeber},1 $F586,$F586 /SPW,9,1, 0., 255. /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 474,/SPZ,FLCCGE,{debouncing error: CAN-Interface, Timeout EGS},1 $F5A5,$F5A5 /SPW,9,1, 0., 255. /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 475,/SPZ,FLCCIF,{debouncing error: CAN-Interface, interner Fehler},1 $F5A0,$F5A0 /SPW,9,1, 0., 255. /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 476,/SPZ,FLCDF,{debouncing error: pressure sensor},1 $F5AC,$F5AC /SPW,9,1, 0., 255. /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 477,/SPZ,FLCDK,{debouncing error: DK - Potentiometer},1 $F589,$F589 /SPW,9,1, 0., 255. /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 478,/SPZ,FLCDPL,{debouncing error: Dauerplus},1 $F584,$F584 /SPW,9,1, 0., 255. /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 479,/SPZ,FLCDST,{debouncing error: Drucksensor Tank},1 $F581,$F581 /SPW,9,1, 0., 255. /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 480,/SPZ,FLCDTV,{debouncing error: LR-adaptation ti-additive},1 $F565,$F565 /SPW,9,1, 0., 255. /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 481,/SPZ,FLCEGA,{debouncing error: unknown output stage - error (output stage A)},1 $F597,$F597 /SPW,9,1, 0., 255. /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 482,/SPZ,FLCEGB,{debouncing error: unknown output stage - error (output stage B)},1 $F598,$F598 /SPW,9,1, 0., 255. /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 483,/SPZ,FLCEGC,{debouncing error: unknown output stage - error (output stage C)},1 $F599,$F599 /SPW,9,1, 0., 255. /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 484,/SPZ,FLCEGD,{debouncing error: unknown output stage - error (output stage D)},1 $F59A,$F59A /SPW,9,1, 0., 255. /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 485,/SPZ,FLCEGE,{debouncing error: unknown output stage - error (output stage E)},1 $F59B,$F59B /SPW,9,1, 0., 255. /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 486,/SPZ,FLCEGF,{debouncing error: unknown output stage - error (output stage F)},1 $F59C,$F59C /SPW,9,1, 0., 255. /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 487,/SPZ,FLCEV1,{debouncing error: EV of Cyl. 1},1 $F58E,$F58E /SPW,9,1, 0., 255. /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 488,/SPZ,FLCEV2,{debouncing error: EV of Cyl. 2},1 $F58F,$F58F /SPW,9,1, 0., 255. /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 489,/SPZ,FLCEV3,{debouncing error: EV of Cyl. 3},1 $F590,$F590 /SPW,9,1, 0., 255. /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 490,/SPZ,FLCEV4,{debouncing error: EV of Cyl. 4},1 $F591,$F591 /SPW,9,1, 0., 255. /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 491,/SPZ,FLCEV5,{debouncing error: EV of Cyl. 5},1 $F592,$F592 /SPW,9,1, 0., 255. /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 492,/SPZ,FLCFRA,{debouncing error: LR-adaptation multiplikativ},1 $F563,$F563 /SPW,9,1, 0., 255. /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 493,/SPZ,FLCHSH,{debouncing error: Lambda probe heating behind catalytic converter},1 $F55F,$F55F /SPW,9,1, 0., 255. /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 494,/SPZ,FLCHSV,{debouncing error: Oxygen sensor heating before catalytic converter},1 $F55E,$F55E /SPW,9,1, 0., 255. /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 495,/SPZ,FLCKAT,{debouncing error: Catalyst Conversion},1 $F567,$F567 /SPW,9,1, 0., 255. /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 496,/SPZ,FLCKRT,{debouncing error: Knock Control Test Pulse},1 $F59F,$F59F /SPW,9,1, 0., 255. /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 497,/SPZ,FLCKS1,{debouncing error: knock sensor 1},1 $F59D,$F59D /SPW,9,1, 0., 255. /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 498,/SPZ,FLCKS2,{debouncing error: knock sensor 2},1 $F59E,$F59E /SPW,9,1, 0., 255. /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 499,/SPZ,FLCLASH,{debouncing error: Lambda probe aging behind cat},1 $F562,$F562 /SPW,9,1, 0., 255. /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 500,/SPZ,FLCLATP,{debouncing error: Lambda probe aging TP},1 $F560,$F560 /SPW,9,1, 0., 255. /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 501,/SPZ,FLCLATV,{debouncing error: Lambda probe aging TV},1 $F561,$F561 /SPW,9,1, 0., 255. /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 502,/SPZ,FLCLDAB,{debouncing error; Boost pressure reduction},1 $F5A2,$F5A2 /SPW,9,1, 0., 255. /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 503,/SPZ,FLCLDE,{debouncing error: Boost pressure control valve (Endstufe)},1 $F596,$F596 /SPW,9,1, 0., 255. /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 504,/SPZ,FLCLDO,{debouncing error: Boost pressure characteristic; exceeded upper value},1 $F5A3,$F5A3 /SPW,9,1, 0., 255. /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 505,/SPZ,FLCLDRA,{debouncing error: Charge pressure deviation},1 $F5A4,$F5A4 /SPW,9,1, 0., 255. /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 506,/SPZ,FLCLE,{debouncing error: load detection},1 $F5AD,$F5AD /SPW,9,1, 0., 255. /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 507,/SPZ,FLCLM,{debouncing error: LMM/HLM/HFM},1 $F588,$F588 /SPW,9,1, 0., 255. /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 508,/SPZ,FLCLSH,{debouncing error: Lambda-Sonde behind Kat},1 $F55D,$F55D /SPW,9,1, 0., 255. /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 509,/SPZ,FLCLSV,{debouncing error: Lambda-Sonde before Kat},1 $F55C,$F55C /SPW,9,1, 0., 255. /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 510,/SPZ,FLCLUEA,{debouncing error: Endstufe Lüfter A},1 $F5A9,$F5A9 /SPW,9,1, 0., 255. /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 511,/SPZ,FLCMFA,{debouncing error: MIL-fremdbestimmt},1 $F566,$F566 /SPW,9,1, 0., 255. /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 512,/SPZ,FLCMFB,{debouncing error: MIL-request - Leitung},1 $F593,$F593 /SPW,9,1, 0., 255. /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 513,/SPZ,FLCN,{debouncing error: Speed ??signal generator},1 $F585,$F585 /SPW,9,1, 0., 255. /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 514,/SPZ,FLCPAC,{debouncing error: Pressure in climate system},1 $F58D,$F58D /SPW,9,1, 0., 255. /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 515,/SPZ,FLCPH,{debouncing error: cam sensor},1 $F587,$F587 /SPW,9,1, 0., 255. /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 516,/SPZ,FLCSGROM,{debouncing error: controller box defect (ROM)},1 $F582,$F582 /SPW,9,1, 0., 255. /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 517,/SPZ,FLCSLP,{debouncing error: Secondary Air Pump},1 $F576,$F576 /SPW,9,1, 0., 255. /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 518,/SPZ,FLCSLPE,{debouncing error: Secondary Air Pump (output stage)},1 $F578,$F578 /SPW,9,1, 0., 255. /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 519,/SPZ,FLCSLS,{debouncing error: Secondary Air System},1 $F575,$F575 /SPW,9,1, 0., 255. /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 520,/SPZ,FLCSLV,{debouncing error: Secondary Air Valve},1 $F577,$F577 /SPW,9,1, 0., 255. /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 521,/SPZ,FLCSLVE,{debouncing error: Secondary Air Valve (output stage)},1 $F579,$F579 /SPW,9,1, 0., 255. /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 522,/SPZ,FLCSWE,{debouncing error: Acceleration sensor of the rough road detection},1 $F574,$F574 /SPW,9,1, 0., 255. /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 523,/SPZ,FLCTA,{debouncing error: TANS},1 $F5AA,$F5AA /SPW,9,1, 0., 255. /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 524,/SPZ,FLCTES,{debouncing error: tank venting system},1 $F57D,$F57D /SPW,9,1, 0., 255. /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 525,/SPZ,FLCTESF,{debouncing error: tank venting system fine leak},1 $F57B,$F57B /SPW,9,1, 0., 255. /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 526,/SPZ,FLCTESG,{debouncing error: tank venting system gross leak},1 $F57C,$F57C /SPW,9,1, 0., 255. /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 527,/SPZ,FLCTEVE,{debouncing error: tank venting valve Endstufe},1 $F580,$F580 /SPW,9,1, 0., 255. /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 528,/SPZ,FLCTM,{debouncing error: TMOT},1 $F58B,$F58B /SPW,9,1, 0., 255. /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 529,/SPZ,FLCTMUM,{debouncing error; TMOT-changeover},1 $F5A6,$F5A6 /SPW,9,1, 0., 255. /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 530,/SPZ,FLCTRA,{debouncing error: LR-adaptation QL-additiv},1 $F564,$F564 /SPW,9,1, 0., 255. /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 531,/SPZ,FLCTX,{debouncing error: Temperature EBOX},1 $F58C,$F58C /SPW,9,1, 0., 255. /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 532,/SPZ,FLCTX1S,{debouncing error: Temperature EBOX 1. Schwelle},1 $F5A7,$F5A7 /SPW,9,1, 0., 255. /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 533,/SPZ,FLCTX2S,{debouncing error: Temperature EBOX 2. Schwelle},1 $F5A8,$F5A8 /SPW,9,1, 0., 255. /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 534,/SPZ,FLCUB,{debouncing error: UB},1 $F583,$F583 /SPW,9,1, 0., 255. /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 535,/SPZ,FLCVFZ,{debouncing error: Vehicle speed},1 $F58A,$F58A /SPW,9,1, 0., 255. /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 536,/SPZ,FLCWFS,{debouncing error: immobilizer},1 $F5AB,$F5AB /SPW,9,1, 0., 255. /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 537,/SPZ,FLCZO,{debouncing error: Opened idle adjuster},1 $F594,$F594 /SPW,9,1, 0., 255. /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 538,/SPZ,FLCZS,{debouncing error: Close idle adjuster},1 $F595,$F595 /SPW,9,1, 0., 255. /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 539,/SPZ,FLDABMTN,{Faktor Boost pressure reduction manual transmission},7 $C868,$E956 /SPW,59,1, 0.390625E-2, 1. /SPX,120,1, 0., 7650.,1048 /SPY,0,0, 0., 0.,0 /FKX,8,0,0 /FKY,0,0,0 /ABL,0; 540,/SPZ,FLDABN,{Boost pressure reduction / cycle (delta factor)},7 $C854,$E906 /SPW,59,1, 0.390625E-2, 1. /SPX,120,1, 0., 7650.,1048 /SPY,0,0, 0., 0.,0 /FKX,8,0,0 /FKY,0,0,0 /ABL,0; 541,/SPZ,FLUV1,{Switch of the modification 1 of the running smoothness calculation},1 $F24B,$F24B /SPW,9,1, 0., 255. /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 542,/SPZ,FLUV2,{Switch of the modification 2 of the running smoothness calculation},1 $F24C,$F24C /SPW,9,1, 0., 255. /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 543,/SPZ,FMLKAMA {Faktor zur Bewertung Schwellwert integr. Luftm. f. Abbruch Kat-Ausr. Pre/Main},1 $131C7,$131C7 /SPW,63,1, 0., 15.9375 /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 544,/SPZ,FNSM,{After starting boost},7 $C8C6,$D7D6 /SPW,68,1, 0., 7.96875 /SPX,168,1, 0., 0.,1202 /SPY,0,0, 0., 0.,0 /FKX,16,0,0 /FKY,0,0,0 /ABL,0; 545,/SPZ,FQKON,{factor on air compressor hook-up at a dep. of speed},7 $13116,$13438 /SPW,60,1, 0., 0.996094 /SPX,127,1, 0., 0.,919 /SPY,0,0, 0., 0.,0 /FKX,16,0,0 /FKY,0,0,0 /ABL,0; 546,/SPZ,FQKTM,{Factor LLR air mass flow rate correction depends. of tmot},7 $C8BC,$D5A6 /SPW,60,1, 0., 0.996094 /SPX,168,1, 0., 0.,1202 /SPY,0,0, 0., 0.,0 /FKX,16,0,0 /FKY,0,0,0 /ABL,0; 547,/SPZ,FQTE,{Compensation factor for air during tank venting},1 $C935,$C935 /SPW,138,1, 0., 102. /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 548,/SPZ,FRADN,{lower fra-threshold for fault detection in the fuel supply system},1 $C96B,$C96B /SPW,51,1, 0., 0.992188 /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 549,/SPZ,FRADX,{upper fra-threshold for fault detection in the fuel supply system},1 $C96A,$C96A /SPW,51,1, 1.007813, 1.992188 /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 550,/SPZ,FRAE,{Delta fra-detection threshold for the steady basic adaptation},1 $C974,$C974 /SPW,60,1, 0., 0.996094 /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 551,/SPZ,FRAMN,{lower limit of the correction factor fra},1 $F200,$F200 /SPW,51,1, 0.75, 1. /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 552,/SPZ,FRAMX,{upper limit of the correction factor fra},1 $F1FF,$F1FF /SPW,51,1, 1., 1.25 /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 553,/SPZ,FRANR1,{KR-enrichment characteristics},4 $CA40,$CA40 /SPW,51,1, 0., 1.992188 /SPX,292,1,-192., 0.,34 /SPY,0,0, 0., 0.,0 /FKX,17,4,0 /FKY,0,0,0 /ABL,0; 554,/SPZ,FRANR2,{KR-enrichment characteristics},7 $C894,$D0D6 /SPW,51,1, 0., 1.992188 /SPX,168,1, 0., 0.,1203 /SPY,0,0, 0., 0.,0 /FKX,16,0,0 /FKY,0,0,0 /ABL,0; 555,/SPZ,FRARN,{reduced lower limit of the correction factor fra},1 $F206,$F206 /SPW,51,1, 0.75, 1. /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 556,/SPZ,FRARX,{reduced upper limit of the correction factor fra},1 $F205,$F205 /SPW,51,1, 1., 1.25 /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 557,/SPZ,FRHB,{fr-threshold for possible resetting flip-flop "high load"},1 $F112,$F112 /SPW,51,1, 0., 1.992188 /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 558,/SPZ,FRMAX,{high limit range},1 $F0FB,$F0FB /SPW,51,1, 1.101563, 1.25 /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 559,/SPZ,FRMAXSL,{Maximum integrator value for DSLS},1 $F0FC,$F0FC /SPW,51,1, 1.101563, 1.898438 /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 560,/SPZ,FRMIN,{lower control range},1 $F0FA,$F0FA /SPW,51,1, 0.75, 0.898438 /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 561,/SPZ,FRMINQ,{lower control range of quicktest},1 $C9E3,$C9E3 /SPW,51,1, 0., 1.992188 /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 562,/SPZ,FSTAUKM,{Startadaption ÜK-evaluation factor},7 $C884,$CF66 /SPW,51,1, 0., 1.992188 /SPX,168,1, 0., 0.,1202 /SPY,0,0, 0., 0.,0 /FKX,16,0,0 /FKY,0,0,0 /ABL,0; 563,/SPZ,FSTED,{Characteristic for level estimation},4 $CB89,$CB89 /SPW,79,1, 0., 1. /SPX,62,1, 0., 10.,39 /SPY,0,0, 0., 0.,0 /FKX,17,4,0 /FKY,0,0,0 /ABL,0; 564,/SPZ,FSWALUV,{Rough road detection threshold depending on Fz speed},4 $CA1E,$CA1E /SPW,85,1, 0., 12.45117 /SPX,150,1, 0., 256.,28 /SPY,0,0, 0., 0.,0 /FKX,17,4,0 /FKY,0,0,0 /ABL,0; 565,/SPZ,FTEADAB,{Threshold loading for termination TE phase},1 $F111,$F111 /SPW,148,1,-64., 63.5 /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 566,/SPZ,FTEADMN,{Minimalwert der Beladung des AKF's},1 $F114,$F114 /SPW,148,1,-64., 63.5 /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 567,/SPZ,FTEADMX,{Maximalwert der Beladung des AKF's},1 $F115,$F115 /SPW,148,1,-64., 63.5 /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 568,/SPZ,FTEAHB,{R & TD detection threshold for high loading},1 $F113,$F113 /SPW,51,1, 0., 1.992188 /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 569,/SPZ,FTEFHB,{Threshold for detection purge tank vent for high loading},1 $F110,$F110 /SPW,60,1, 0., 0.996094 /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 570,/SPZ,FTEFVAA,{Anfangsbegrenzung der Spülrate zu Beginn einer Spülphase},1 $F108,$F108 /SPW,60,1, 0., 0.996094 /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 571,/SPZ,FTEHB,{Schwelle für Faktor Tankentlüftung für Erkennung hohe Beladung},1 $F10F,$F10F /SPW,148,1,-64., 63.5 /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 572,/SPZ,FUKNSTM,{Starting value factor ÜK in afterstart},7 $C886,$CF76 /SPW,72,1, 0., 3.984375 /SPX,168,1, 0., 0.,1202 /SPY,0,0, 0., 0.,0 /FKX,16,0,0 /FKY,0,0,0 /ABL,0; 573,/SPZ,FVANST,{Gewichtungsfaktor VA im Nachstart},1 $C9D8,$C9D8 /SPW,51,1, 0., 1.992188 /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 574,/SPZ,FVLN,{Full load correction},7 $13142,$13E48 /SPW,51,1, 0., 1.992188 /SPX,127,1, 0., 0.,919 /SPY,0,0, 0., 0.,0 /FKX,16,0,0 /FKY,0,0,0 /ABL,0; 575,/SPZ,FWLM1,{Warmlauffaktor bei Starttemperatur<=tmfwlu},7 $C8D2,$D836 /SPW,51,1, 0., 1.992188 /SPX,168,1, 0., 0.,1202 /SPY,0,0, 0., 0.,0 /FKX,16,0,0 /FKY,0,0,0 /ABL,0; 576,/SPZ,FWLM2,{Warmlauffaktor},7 $C8D4,$D846 /SPW,51,1, 0., 1.992188 /SPX,168,1, 0., 0.,1202 /SPY,0,0, 0., 0.,0 /FKX,16,0,0 /FKY,0,0,0 /ABL,0; 577,/SPZ,FWLM3,{Warmlauffaktor beiStarttemperatur>tmfwlo},7 $C8D6,$D856 /SPW,51,1, 0., 1.992188 /SPX,168,1, 0., 0.,1202 /SPY,0,0, 0., 0.,0 /FKX,16,0,0 /FKY,0,0,0 /ABL,0; 578,/SPZ,FWSTA1,{Weighting afterstart},7 $C888,$CF86 /SPW,51,1, 0., 1.992188 /SPX,51,1, 0., 0.,999 /SPY,0,0, 0., 0.,0 /FKX,16,0,0 /FKY,0,0,0 /ABL,0; 579,/SPZ,FWSTA2,{Wichtung Nachstart Umschaltschwelle},7 $F0CB,$FB57 /SPW,51,1, 0., 1.992188 /SPX,51,1, 0., 0.,999 /SPY,0,0, 0., 0.,0 /FKX,16,0,0 /FKY,0,0,0 /ABL,0; 580,/SPZ,FWSTA3,{Wichtung Nachstart Abregelung},7 $C88A,$CF96 /SPW,60,1, 0., 0.996094 /SPX,51,1, 0., 0.,999 /SPY,0,0, 0., 0.,0 /FKX,16,0,0 /FKY,0,0,0 /ABL,0; 581,/SPZ,FWUEKHZU,{Weighting of the firing angle in cats heating in the transition idle part load} 4 $C9FC,$C9FC /SPW,60,1, 0., 0.996094 /SPX,297,1, 0., 1280.,31 /SPY,0,0, 0., 0.,0 /FKX,17,4,0 /FKY,0,0,0 /ABL,0; 582,/SPZ,FZANSM1 {Faktor für zündsynchrone Abregelung des Nachstartfaktors oberhalb Schwelle},7 $C86E,$CCB2 /SPW,60,1, 0., 0.996094 /SPX,168,1, 0., 0.,1202 /SPY,0,0, 0., 0.,0 /FKX,16,0,0 /FKY,0,0,0 /ABL,0; 583,/SPZ,FZANSM2 {Faktor für zündsynchrone Abregelung des Nachstartfaktors unterhalb Schwelle},7 $C870,$CCC2 /SPW,60,1, 0., 0.996094 /SPX,168,1, 0., 0.,1202 /SPY,0,0, 0., 0.,0 /FKX,16,0,0 /FKY,0,0,0 /ABL,0; 584,/SPZ,FZBFTEB,{Faktor Begrenzung Lerngeschwindigkeit für Beladung},4 $CAA6,$CAA6 /SPW,60,1, 0., 0.996094 /SPX,53,1, 0.,0.015625,36 /SPY,0,0, 0., 0.,0 /FKX,17,4,0 /FKY,0,0,0 /ABL,0; 585,/SPZ,FZFTEFVA,{Faktor ftefva-abhängige Lerngeschwindigkeit der Beladung},4 $CAD9,$CAD9 /SPW,79,1, 0., 1. /SPX,79,1, 0., 1.,37 /SPY,0,0, 0., 0.,0 /FKX,17,4,0 /FKY,0,0,0 /ABL,0; 586,/SPZ,FZML,{Faktor für Absteuerzeitkonstante des Korrekturfaktors Fkmlma},2 $F0C9,$FAAF /SPW,51,1, 0., 1.992188 /SPX,135,1, 0., 408.,17 /SPY,0,0, 0., 0.,0 /FKX,4,0,0 /FKY,0,0,0 /ABL,1; 587,/SPZ,FZQTE,{Zeit für Absteuerung Spülrate auf Null bei B_te 1 -> 0},1 $F109,$F109 /SPW,173,1, 0.8, 204. /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 588,/SPZ,FZQTEFR,{Kennlinie stetige Grenzwertregelung (fr)},4 $CAC8,$CAC8 /SPW,82,1, 0., 16. /SPX,71,1, 0.75, 1.25,35 /SPY,0,0, 0., 0.,0 /FKX,17,4,0 /FKY,0,0,0 /ABL,0; 589,/SPZ,GANG_NR,{Stützstellen der Gänge},6 $C816,$CC9A /SPW,0,0, 0., 0. /SPX,9,1, 0., 255.,6 /SPY,0,0, 0., 0.,0 /FKX,6,0,0 /FKY,0,0,0 /ABL,1; 590,/SPZ,GFSTEDH,{höhenabhängige Leckdiagnoseschwelle},8 $C88C,$CFA6 /SPW,80,1, 0., 1. /SPX,62,1, 0., 0.,595 /SPY,51,1, 0., 0.,678 /FKX,16,0,0 /FKY,16,0,0 /ABL,0; 591,/SPZ,GGRTED,{Grenzgradient für UD-Aufbau bei TE-Diagnose},1 $C992,$C992 /SPW,61,1, 0., 9.960938 /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 592,/SPZ,GRLABTED,{Grenzgradient des Unterdruckabbaus bei leerem Tank},1 $C993,$C993 /SPW,80,1, 0., 1. /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 593,/SPZ,GRLUFTED,{Grenzgradient des Unterdruckaufbaus bei leerem Tank},1 $C994,$C994 /SPW,61,1, 0., 9.960938 /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 594,/SPZ,GRVTED,{Grenzgradient für Volltankerkennung},1 $C995,$C995 /SPW,61,1, 0., 9.960938 /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 595,/SPZ,GUDAGRSP,{Dummystuetzstellenverteilung als Source},6 $13108,$133E1 /SPW,0,0, 0., 0. /SPX,62,1, 0., 10.,39 /SPY,0,0, 0., 0.,0 /FKX,16,0,0 /FKY,0,0,0 /ABL,2; 596,/SPZ,HLCAAV,{Debouncing Healing: Valve active carbon filter (Funktion)},1 $F52B,$F52B /SPW,9,1, 0., 255. /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 597,/SPZ,HLCAAVE,{Debouncing Healing: Valve active carbon filter (Endstufe)},1 $F52C,$F52C /SPW,9,1, 0., 255. /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 598,/SPZ,HLCAGRF,{Debouncing Healing: Überwachung EGR-FLOW},1 $F527,$F527 /SPW,9,1, 0., 255. /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 599,/SPZ,HLCASE,{Debouncing Healing: Misfire detection, Summe (multiple), emission-relevant} 1 $F515,$F515 /SPW,9,1, 0., 255. /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 600,/SPZ,HLCASE1,{Debouncing Healing: Misfire detection CYL. 1, emission-relevant},1 $F516,$F516 /SPW,9,1, 0., 255. /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 601,/SPZ,HLCASE2,{Debouncing Healing: Misfire detection CYL. 2, emission-relevant},1 $F517,$F517 /SPW,9,1, 0., 255. /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 602,/SPZ,HLCASE3,{Debouncing Healing: Misfire detection CYL. 3, emission-relevant},1 $F51A,$F51A /SPW,9,1, 0., 255. /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 603,/SPZ,HLCASE4,{Debouncing Healing: Misfire detection CYL. 4, emission-relevant},1 $F518,$F518 /SPW,9,1, 0., 255. /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 604,/SPZ,HLCASE5,{Debouncing Healing: Misfire detection CYL. 5, emission-relevant},1 $F519,$F519 /SPW,9,1, 0., 255. /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 605,/SPZ,HLCASK,{Debouncing Healing: Misfire detection, Summe (multiple), catalyst-damaging} 1 $F51B,$F51B /SPW,9,1, 0., 255. /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 606,/SPZ,HLCASK1,{Debouncing Healing: Misfire detection CYL. 1, catalyst-damaging},1 $F51C,$F51C /SPW,9,1, 0., 255. /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 607,/SPZ,HLCASK2,{Debouncing Healing: Misfire detection CYL. 2, catalyst-damaging},1 $F51D,$F51D /SPW,9,1, 0., 255. /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 608,/SPZ,HLCASK3,{Debouncing Healing: Misfire detection CYL. 3, catalyst-damaging},1 $F520,$F520 /SPW,9,1, 0., 255. /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 609,/SPZ,HLCASK4,{Debouncing Healing: Misfire detection CYL. 4, catalyst-damaging},1 $F51E,$F51E /SPW,9,1, 0., 255. /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 610,/SPZ,HLCASK5,{Debouncing Healing: Misfire detection CYL. 5, catalyst-damaging},1 $F51F,$F51F /SPW,9,1, 0., 255. /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 611,/SPZ,HLCBAA,{Debouncing Healing: Bedarfsadaption am Anschlag},1 $F54E,$F54E /SPW,9,1, 0., 255. /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 612,/SPZ,HLCBM,{Debouncing Healing: Bezugsmarkengeber},1 $F533,$F533 /SPW,9,1, 0., 255. /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 613,/SPZ,HLCCGE,{Debouncing Healing: CAN-Interface, Timeout EGS},1 $F552,$F552 /SPW,9,1, 0., 255. /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 614,/SPZ,HLCCIF,{Debouncing Healing: CAN-Interface, interner Fehler},1 $F54D,$F54D /SPW,9,1, 0., 255. /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 615,/SPZ,HLCDF,{Debouncing Healing: pressure sensor},1 $F559,$F559 /SPW,9,1, 0., 255. /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 616,/SPZ,HLCDK,{Debouncing Healing: DK - Potentiometer},1 $F536,$F536 /SPW,9,1, 0., 255. /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 617,/SPZ,HLCDPL,{Debouncing Healing: Dauerplus},1 $F531,$F531 /SPW,9,1, 0., 255. /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 618,/SPZ,HLCDST,{Debouncing Healing: Drucksensor Tank},1 $F52E,$F52E /SPW,9,1, 0., 255. /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 619,/SPZ,HLCDTV,{Debouncing Healing: LR-adaptation ti-additive},1 $F512,$F512 /SPW,9,1, 0., 255. /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 620,/SPZ,HLCEGA,{Debouncing Healing: unknown output stage - error (output stage A)} 1 $F544,$F544 /SPW,9,1, 0., 255. /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 621,/SPZ,HLCEGB,{Debouncing Healing: unknown output stage - error (output stage B)} 1 $F545,$F545 /SPW,9,1, 0., 255. /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 622,/SPZ,HLCEGC,{Debouncing Healing: unknown output stage - error (output stage C)} 1 $F546,$F546 /SPW,9,1, 0., 255. /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 623,/SPZ,HLCEGD,{Debouncing Healing: unknown output stage - error (output stage D)} 1 $F547,$F547 /SPW,9,1, 0., 255. /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 624,/SPZ,HLCEGE,{Debouncing Healing: unknown output stage - error (output stage E)} 1 $F548,$F548 /SPW,9,1, 0., 255. /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 625,/SPZ,HLCEGF,{Debouncing Healing: unknown output stage - error (output stage F)} 1 $F549,$F549 /SPW,9,1, 0., 255. /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 626,/SPZ,HLCEV1,{Debouncing Healing: EV of Cyl. 1},1 $F53B,$F53B /SPW,9,1, 0., 255. /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 627,/SPZ,HLCEV2,{Debouncing Healing: EV of Cyl. 2},1 $F53C,$F53C /SPW,9,1, 0., 255. /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 628,/SPZ,HLCEV3,{Debouncing Healing: EV of Cyl. 3},1 $F53D,$F53D /SPW,9,1, 0., 255. /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 629,/SPZ,HLCEV4,{Debouncing Healing: EV of Cyl. 4},1 $F53E,$F53E /SPW,9,1, 0., 255. /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 630,/SPZ,HLCEV5,{Debouncing Healing: EV of Cyl. 5},1 $F53F,$F53F /SPW,9,1, 0., 255. /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 631,/SPZ,HLCFRA,{Debouncing Healing: LR-adaptation multiplikativ},1 $F510,$F510 /SPW,9,1, 0., 255. /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 632,/SPZ,HLCHSH,{Debouncing Healing: Lambda probe heating behind catalytic converter},1 $F50C,$F50C /SPW,9,1, 0., 255. /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 633,/SPZ,HLCHSV,{Debouncing Healing: Oxygen sensor heating before catalytic converter},1 $F50B,$F50B /SPW,9,1, 0., 255. /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 634,/SPZ,HLCKAT,{Debouncing Healing: Catalyst Conversion},1 $F514,$F514 /SPW,9,1, 0., 255. /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 635,/SPZ,HLCKRT,{Debouncing Healing: Testimpuls},1 $F54C,$F54C /SPW,9,1, 0., 255. /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 636,/SPZ,HLCKS1,{Debouncing Healing: knock sensor 1},1 $F54A,$F54A /SPW,9,1, 0., 255. /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 637,/SPZ,HLCKS2,{Debouncing Healing: knock sensor 2},1 $F54B,$F54B /SPW,9,1, 0., 255. /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 638,/SPZ,HLCLASH,{Debouncing Healing: Lambda probe aging behind cat},1 $F50F,$F50F /SPW,9,1, 0., 255. /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 639,/SPZ,HLCLATP,{Debouncing Healing: Lambda probe aging TP},1 $F50D,$F50D /SPW,9,1, 0., 255. /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 640,/SPZ,HLCLATV,{Debouncing Healing: Lambda probe aging TV},1 $F50E,$F50E /SPW,9,1, 0., 255. /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 641,/SPZ,HLCLDAB,{Debouncing Healing; Boost pressure reduction},1 $F54F,$F54F /SPW,9,1, 0., 255. /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 642,/SPZ,HLCLDE,{Debouncing Healing: Boost pressure control valve (Endstufe)},1 $F543,$F543 /SPW,9,1, 0., 255. /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 643,/SPZ,HLCLDO,{Debouncing Healing: Boost pressure characteristic; exceeded upper value},1 $F550,$F550 /SPW,9,1, 0., 255. /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 644,/SPZ,HLCLDRA,{Debouncing Healing: Charge pressure deviation},1 $F551,$F551 /SPW,9,1, 0., 255. /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 645,/SPZ,HLCLE,{Debouncing Healing: load sensing},1 $F55A,$F55A /SPW,9,1, 0., 255. /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 646,/SPZ,HLCLM,{Debouncing Healing: LMM/HLM/HFM},1 $F535,$F535 /SPW,9,1, 0., 255. /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 647,/SPZ,HLCLSH,{Debouncing Healing: Lambda-Sonde behind cat},1 $F50A,$F50A /SPW,9,1, 0., 255. /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 648,/SPZ,HLCLSV,{Debouncing Healing: Lambda-Sonde vor Kat},1 $F509,$F509 /SPW,9,1, 0., 255. /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 649,/SPZ,HLCLUEA,{Debouncing Healing: Endstufe Lüfter A},1 $F556,$F556 /SPW,9,1, 0., 255. /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 650,/SPZ,HLCMFA,{Debouncing Healing: MIL-fremdbestimmt},1 $F513,$F513 /SPW,9,1, 0., 255. /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 651,/SPZ,HLCMFB,{Debouncing Healing: MIL-request - Leitung},1 $F540,$F540 /SPW,9,1, 0., 255. /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 652,/SPZ,HLCN,{Debouncing Healing: Speed ??signal generator},1 $F532,$F532 /SPW,9,1, 0., 255. /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 653,/SPZ,HLCPAC,{Debouncing Healing: Druck in Klimasystem},1 $F53A,$F53A /SPW,9,1, 0., 255. /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 654,/SPZ,HLCPH,{Debouncing Healing: Phasensensor},1 $F534,$F534 /SPW,9,1, 0., 255. /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 655,/SPZ,HLCSGROM,{Debouncing Healing: Steuergerät defekt (ROM)},1 $F52F,$F52F /SPW,9,1, 0., 255. /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 656,/SPZ,HLCSLP,{Debouncing Healing: Secondary Air Pump},1 $F523,$F523 /SPW,9,1, 0., 255. /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 657,/SPZ,HLCSLPE,{Debouncing Healing: Secondary Air Pump (Endstufe)},1 $F525,$F525 /SPW,9,1, 0., 255. /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 658,/SPZ,HLCSLS,{Debouncing Healing: Secondary Air System},1 $F522,$F522 /SPW,9,1, 0., 255. /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 659,/SPZ,HLCSLV,{Debouncing Healing: Secondary Air Valve},1 $F524,$F524 /SPW,9,1, 0., 255. /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 660,/SPZ,HLCSLVE,{Debouncing Healing: Secondary Air Valve (Endstufe)},1 $F526,$F526 /SPW,9,1, 0., 255. /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 661,/SPZ,HLCSWE,{Debouncing Healing: Acceleration sensor of the rough road detection},1 $F521,$F521 /SPW,9,1, 0., 255. /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 662,/SPZ,HLCTA,{Debouncing Healing: TANS},1 $F557,$F557 /SPW,9,1, 0., 255. /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 663,/SPZ,HLCTES,{Debouncing Healing: tank venting system},1 $F52A,$F52A /SPW,9,1, 0., 255. /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 664,/SPZ,HLCTESF,{Debouncing Healing: Tankentlüftungssytem fine leak},1 $F528,$F528 /SPW,9,1, 0., 255. /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 665,/SPZ,HLCTESG,{Debouncing Healing: tank venting system gross leak},1 $F529,$F529 /SPW,9,1, 0., 255. /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 666,/SPZ,HLCTEVE,{Debouncing Healing: tank venting valve Endstufe},1 $F52D,$F52D /SPW,9,1, 0., 255. /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 667,/SPZ,HLCTM,{Debouncing Healing: TMOT},1 $F538,$F538 /SPW,9,1, 0., 255. /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 668,/SPZ,HLCTMUM,{Debouncing Healing; TMOT-changeover},1 $F553,$F553 /SPW,9,1, 0., 255. /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 669,/SPZ,HLCTRA,{Debouncing Healing: LR-adaptation QL-additiv},1 $F511,$F511 /SPW,9,1, 0., 255. /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 670,/SPZ,HLCTX,{Debouncing Healing: Temperature EBOX},1 $F539,$F539 /SPW,9,1, 0., 255. /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 671,/SPZ,HLCTX1S,{Debouncing Healing: Temperature EBOX 1. Schwelle},1 $F554,$F554 /SPW,9,1, 0., 255. /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 672,/SPZ,HLCTX2S,{Debouncing Healing: Temperature EBOX 2. Schwelle},1 $F555,$F555 /SPW,9,1, 0., 255. /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 673,/SPZ,HLCUB,{Debouncing Healing: UB},1 $F530,$F530 /SPW,9,1, 0., 255. /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 674,/SPZ,HLCVFZ,{Debouncing Healing: Vehicle speed},1 $F537,$F537 /SPW,9,1, 0., 255. /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 675,/SPZ,HLCWFS,{Debouncing Healing: immobilizer},1 $F558,$F558 /SPW,9,1, 0., 255. /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 676,/SPZ,HLCZO,{Debouncing Healing: Opened idle adjuster},1 $F541,$F541 /SPW,9,1, 0., 255. /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 677,/SPZ,HLCZS,{Debouncing Healing: Close idle adjuster},1 $F542,$F542 /SPW,9,1, 0., 255. /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 678,/SPZ,HOEHENGR,{Stützstellen für Höhenadaptionsfaktor},6 $C80A,$CBC9 /SPW,0,0, 0., 0. /SPX,51,1, 0., 1.992188,54 /SPY,0,0, 0., 0.,0 /FKX,16,0,0 /FKY,0,0,0 /ABL,2; 679,/SPZ,HOEHENGR8S,{Stützstellen für Höhenkorrektur},6 $C80C,$CBDC /SPW,0,0, 0., 0. /SPX,51,1, 0., 1.992188,54 /SPY,0,0, 0., 0.,0 /FKX,8,0,0 /FKY,0,0,0 /ABL,2; 680,/SPZ,HTEDU,{Untere Höhenschwelle für Durchführung Tank vent diagnosis},1 $C996,$C996 /SPW,51,1, 0., 1.992188 /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 681,/SPZ,HUELLTL,{Höhenschwelle zur Deactivierung von %UE_LLTL},1 $131AB,$131AB /SPW,51,1, 0., 1.992188 /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 682,/SPZ,IDENTIFY1 {vollständige ECU Teilenummer (erste 10 Ziff. in 5 Werte [hex],Rest in ASCII[hex]},13 $13373,$13373 /SPW,9,1, 0., 255. /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,8,0,0 /FKY,0,0,0 /ABL,0; 683,/SPZ,IDENTIFY2,{Steuergerät SW-Teilenummer},13 $1337B,$1337B /SPW,9,1, 0., 255. /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,7,0,0 /FKY,0,0,0 /ABL,0; 684,/SPZ,ILRSLAU {Integration speed at the start of the diagnostic of Secondary Air Systems},1 $F0FD,$F0FD /SPW,92,1, 0.256364, 65.37283 /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 685,/SPZ,ILRSLST,{Slope for management of the control factor of DSLS},1 $F0FE,$F0FE /SPW,92,1, 0.256364, 65.37283 /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 686,/SPZ,IMLABG,{Schwellwert integr. Luftmasse für Taupunktendeerkennung vor Kat},1 $C923,$C923 /SPW,119,1, 0., 6366.354 /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 687,/SPZ,IMLABGW {Schwellwert integ. Luftmasse fuer Taupunktendeerkennung vor Kat (Wiederholstart)},1 $C924,$C924 /SPW,119,1, 0., 6366.354 /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 688,/SPZ,IMLKAMN,{Schwellwert integr. Luftmasse f. Mindestdauer Katalysator-Ausräumen},1 $131C4,$131C4 /SPW,116,1, 0., 20.67505 /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 689,/SPZ,IMLKAMX,{Schwellwert integr. Luftmasse f. Abbruch Katalysator-Ausräumen},1 $131C5,$131C5 /SPW,116,2, 0., 6391.223 /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 690,/SPZ,IMLKAT,{Schwellwert integr. Luftmasse fuer Taupunktendeerkennung behind cat},1 $C925,$C925 /SPW,119,1, 0., 6366.354 /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 691,/SPZ,IMLKATW {Schwellwert integr. Luftmasse f. Taupunktendeerkennung behind cat (Wiederholst.)},1 $C926,$C926 /SPW,119,1, 0., 6366.354 /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 692,/SPZ,IMS,{Impulse für Gangerkennung, alle Gänge},4 $13369,$13369 /SPW,9,1, 0., 255. /SPX,9,1, 0., 4.,6 /SPY,0,0, 0., 0.,0 /FKX,5,0,0 /FKY,0,0,0 /ABL,0; 693,/SPZ,INCKSTAI,{Inkrement-Step für STADAP-Faktor},13 $13360,$13360 /SPW,9,1, 0., 255. /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,3,0,0 /FKY,0,0,0 /ABL,0; 694,/SPZ,INIFAV,{Initialisierungswert für Filter-Matrix},1 $F11E,$F11E /SPW,83,1,-1., 0.992188 /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 695,/SPZ,INIMDKAT,{Initialization mode for filter-array (> 0: start reset)},1 $F11B,$F11B /SPW,9,1, 0., 255. /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 696,/SPZ,KEFLDY,{K - factor - increase in load dynamics},1 $F239,$F239 /SPW,94,1, 1.003922, 256. /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 697,/SPZ,KEKAN,{Load limit knocking active},7 $13134,$13B08 /SPW,180,1, 0., 12.24 /SPX,127,1, 0., 0.,919 /SPY,0,0, 0., 0.,0 /FKX,16,0,0 /FKY,0,0,0 /ABL,0; 698,/SPZ,KEMAN,{Measurement window start for knock control},7 $C89C,$D3E6 /SPW,290,1, 0., 191.25 /SPX,127,1, 0., 0.,919 /SPY,0,0, 0., 0.,0 /FKX,16,0,0 /FKY,0,0,0 /ABL,0; 699,/SPZ,KEMLN,{Measurement window length for knock control},7 $C89E,$D3F6 /SPW,290,1, 0., 191.25 /SPX,127,1, 0., 0.,919 /SPY,0,0, 0., 0.,0 /FKX,16,0,0 /FKY,0,0,0 /ABL,0; 700,/SPZ,KFABAK,{Aufteilungsfaktor Wandfilm bei BA},8 $C87C,$CEC6 /SPW,60,1, 0., 0.996094 /SPX,127,1, 0., 0.,922 /SPY,168,1, 0., 0.,1204 /FKX,8,0,0 /FKY,8,0,0 /ABL,0; 701,/SPZ,KFAMALU,{Characteristic field reduction factor for Lur value recognized in multiple misfires} 8 $C822,$EB1E /SPW,60,1, 0., 0.996094 /SPX,127,1, 0., 0.,919 /SPY,180,1, 0., 0.,1145 /FKX,16,0,0 /FKY,16,0,0 /ABL,0; 702,/SPZ,KFANALU,{Number of burn suppressions after a recognized dropout},8 $C81E,$EA5E /SPW,9,1, 0., 255. /SPX,9,1, 0., 255.,589 /SPY,127,1, 0., 0.,919 /FKX,6,0,0 /FKY,16,0,0 /ABL,0; 703,/SPZ,KFANMX,{Map for max. enrichment in knocking},8 $C896,$D0E6 /SPW,51,1, 0., 1.992188 /SPX,180,1, 0., 0.,1145 /SPY,127,1, 0., 0.,919 /FKX,16,0,0 /FKY,16,0,0 /ABL,0; 704,/SPZ,KFAVAK,{Distribution Factor wall film at VA},8 $C87E,$CF06 /SPW,60,1, 0., 0.996094 /SPX,127,1, 0., 0.,922 /SPY,168,1, 0., 0.,1204 /FKX,8,0,0 /FKY,8,0,0 /ABL,0; 705,/SPZ,KFBAKL,{Acceleration enrichment factor (K + L-component)},8 $C874,$CDC6 /SPW,52,1, 0., 15.9375 /SPX,127,1, 0., 0.,922 /SPY,168,1, 0., 0.,1204 /FKX,8,0,0 /FKY,8,0,0 /ABL,0; 706,/SPZ,KFBAW,{Acceleration enrichment factor Dk-share},8 $C878,$CE46 /SPW,73,1, 0., 31.875 /SPX,127,1, 0., 0.,922 /SPY,168,1, 0., 0.,1204 /FKX,8,0,0 /FKY,8,0,0 /ABL,0; 707,/SPZ,KFDKATI {Index map for addressing Kat diagnosis with detection range AV active},8 $C89A,$D2E6 /SPW,9,1, 0., 255. /SPX,127,1, 0., 0.,919 /SPY,180,1, 0., 0.,1146 /FKX,16,0,0 /FKY,16,0,0 /ABL,0; 708,/SPZ,KFDNLLKH,{Increase the desired idle speed when cat-heating},8 $1314C,$14078 /SPW,121,1, 0., 2550. /SPX,280,1, 0., 0.,1417 /SPY,168,1, 0., 0.,1202 /FKX,16,0,0 /FKY,16,0,0 /ABL,0; 709,/SPZ,KFDQKH,{Increase air pilot control b. Kat-heating when neutral gear},8 $C8DC,$D8E6 /SPW,138,1, 0., 102. /SPX,280,1, 0., 0.,1417 /SPY,168,1, 0., 0.,1202 /FKX,16,0,0 /FKY,16,0,0 /ABL,0; 710,/SPZ,KFDQKO,{Dynamic derivative action when turning on the air conditioning compressor},8 $13114,$13448 /SPW,138,1, 0., 102. /SPX,127,1, 0., 0.,919 /SPY,180,1, 0., 0.,1145 /FKX,16,0,0 /FKY,16,0,0 /ABL,0; 711,/SPZ,KFDWKHT,{delta ignition angle for Kat heating in part load},8 $C8DE,$D9E6 /SPW,291,1,-191.25, 0. /SPX,127,1, 0., 0.,919 /SPY,180,1, 0., 0.,1145 /FKX,16,0,0 /FKY,16,0,0 /ABL,0; 712,/SPZ,KFDWWEAC,{UEF: delta ignition angle at AC on},8 $1312A,$136F8 /SPW,291,1,-191.25, 0. /SPX,180,1, 0., 0.,1146 /SPY,127,1, 0., 0.,919 /FKX,16,0,0 /FKY,16,0,0 /ABL,0; 713,/SPZ,KFDWWELL,{UEF: delta ignition angle when LL was},8 $1312C,$137F8 /SPW,291,1,-191.25, 0. /SPX,180,1, 0., 0.,1146 /SPY,127,1, 0., 0.,919 /FKX,16,0,0 /FKY,16,0,0 /ABL,0; 714,/SPZ,KFDYWV,{Dynamic derivative retard},8 $13132,$13A08 /SPW,291,1,-191.25, 0. /SPX,21,1, 0., 0.,394 /SPY,127,1, 0., 0.,919 /FKX,16,0,0 /FKY,16,0,0 /ABL,0; 715,/SPZ,KFDZUWE1,{UEF: Notching step width Gang0/1},8 $13124,$13638 /SPW,152,1, 0., 255. /SPX,180,1, 0., 0.,391 /SPY,127,1, 0., 0.,921 /FKX,8,0,0 /FKY,8,0,0 /ABL,0; 716,/SPZ,KFDZUWE2,{UEF: Notching step width Gang2},8 $13126,$13678 /SPW,152,1, 0., 255. /SPX,180,1, 0., 0.,391 /SPY,127,1, 0., 0.,921 /FKX,8,0,0 /FKY,8,0,0 /ABL,0; 717,/SPZ,KFDZUWE3,{UEF: Notching step width Gang3/4/5},8 $13128,$136B8 /SPW,152,1, 0., 255. /SPX,180,1, 0., 0.,391 /SPY,127,1, 0., 0.,921 /FKX,8,0,0 /FKY,8,0,0 /ABL,0; 718,/SPZ,KFFRMIN,{lower control range},8 $C872,$CD86 /SPW,51,1, 0., 1.992188 /SPX,281,1, 0., 0.,1416 /SPY,168,1, 0., 0.,1204 /FKX,8,0,0 /FKY,8,0,0 /ABL,0; 719,/SPZ,KFFTV,{Weighting map for TVLRH},3 $F0B7,$FB03 /SPW,51,1, 0., 1.992188 /SPX,120,1, 0., 7650.,10 /SPY,180,1, 0., 12.24,19 /FKX,8,0,0 /FKY,8,0,0 /ABL,1; 720,/SPZ,KFFWKS,{Repeat cold start factor},8 $C8F2,$E176 /SPW,51,1, 0., 1.992188 /SPX,227,1, 0., 0.,1321 /SPY,168,1, 0., 0.,1202 /FKX,16,0,0 /FKY,16,0,0 /ABL,0; 721,/SPZ,KFFWNS,{Repeat start time factor},8 $C8F4,$E276 /SPW,51,1, 0., 1.992188 /SPX,227,1, 0., 0.,1321 /SPY,168,1, 0., 0.,1202 /FKX,16,0,0 /FKY,16,0,0 /ABL,0; 722,/SPZ,KFFWZKHL,{time weighting the firing angle in cats heating at idle},8 $C8E0,$DAE6 /SPW,60,1, 0., 0.996094 /SPX,280,1, 0., 0.,1417 /SPY,168,1, 0., 0.,1202 /FKX,16,0,0 /FKY,16,0,0 /ABL,0; 723,/SPZ,KFFWZKHT,{time weighting the firing angle at Kat-heating in the part-load},8 $C8E2,$DBE6 /SPW,60,1, 0., 0.996094 /SPX,280,1, 0., 0.,1417 /SPY,168,1, 0., 0.,1202 /FKX,16,0,0 /FKY,16,0,0 /ABL,0; 724,/SPZ,KFKEF,{Knock detection factor map},8 $13130,$13908 /SPW,95,1, 1., 9.846154 /SPX,127,1, 0., 0.,919 /SPY,180,1, 0., 0.,1145 /FKX,16,0,0 /FKY,16,0,0 /ABL,0; 725,/SPZ,KFKRANMX,{Map for max. Enrichment in knocking},8 $C898,$D1E6 /SPW,51,1, 0., 1.992188 /SPX,180,1, 0., 0.,1145 /SPY,127,1, 0., 0.,919 /FKX,16,0,0 /FKY,16,0,0 /ABL,0; 726,/SPZ,KFKSB2M,{Start factor reduction in area 2},8 $C8C4,$D6D6 /SPW,60,1, 0., 0.996094 /SPX,10,1, 0., 0.,1418 /SPY,168,1, 0., 0.,1202 /FKX,16,0,0 /FKY,16,0,0 /ABL,0; 727,/SPZ,KFKSWF,{Map for Cat Protection weighting factors},8 $C82C,$ED4E /SPW,96,1, 0., 255. /SPX,127,1, 0., 0.,919 /SPY,180,1, 0., 0.,1145 /FKX,16,0,0 /FKY,16,0,0 /ABL,0; 728,/SPZ,KFLAHK,{pseudo-lambda setpoint for control behind catalytic converter},8 $C86A,$CD46 /SPW,101,1, 0.92, 1.079375 /SPX,127,1, 0., 0.,922 /SPY,180,1, 0., 0.,1147 /FKX,8,0,0 /FKY,8,0,0 /ABL,0; 729,/SPZ,KFLDSAK,{Map Intake (charge) air correction for LDR setpoint},8 $C842,$E4B6 E594 in 607 /SPW,51,1, 0., 1.992188 /SPX,127,1, 0., 0.,920 /SPY,171,1, 0., 0.,1067 /FKX,8,0,0 /FKY,8,0,0 /ABL,0; 730,/SPZ,KFLDSHK,{Map height correction for LDR setpoint},8 $C840,$E476 E554 in 607 /SPW,51,1, 0., 1.992188 /SPX,127,1, 0., 0.,920 /SPY,51,1, 0., 0.,679 /FKX,8,0,0 /FKY,8,0,0 /ABL,0; 731,/SPZ,KFLF,{Lambda map at partial load},8 $13140,$13D48 /SPW,51,1, 0., 1.992188 /SPX,127,1, 0., 0.,919 /SPY,180,1, 0., 0.,1145 /FKX,16,0,0 /FKY,16,0,0 /ABL,0; 732,/SPZ,KFLURB,{map-for-running unrest-reference-base value},8 $C81C,$E95E /SPW,104,1, 0., 131.9374 /SPX,127,1, 0., 0.,919 /SPY,180,1, 0., 0.,1145 /FKX,16,0,0 /FKY,16,0,0 /ABL,0; 733,/SPZ,KFLURM {map-for-running unrest-reference value for multiple misfire detection -> lum-Comp.},8 $C824,$EC1E /SPW,104,1, 0., 131.9374 /SPX,127,1, 0., 0.,919 /SPY,180,1, 0., 0.,1145 /FKX,16,0,0 /FKY,16,0,0 /ABL,0; 734,/SPZ,KFP2,{Duty cycle - change / cycle},8 $13154,$142A8 /SPW,89,1, 0., 174.3276 /SPX,9,1, 0., 255.,1049 /SPY,120,1, 0., 7650.,1048 /FKX,4,0,0 /FKY,8,0,0 /ABL,0; 735,/SPZ,KFPS,{setpoint for map-ldr},8 $C83E,$E376 /SPW,180,1, 0., 12.192 /SPX,274,1, 0., 0.,1390 /SPY,127,1, 0., 0.,923 /FKX,16,0,0 /FKY,16,0,0 /ABL,0; 736,/SPZ,KFQDP,{Additional air dashpot},8 $1313A,$13B38 /SPW,138,1, 0., 102. /SPX,127,1, 0., 0.,919 /SPY,272,1, 0., 0.,1385 /FKX,16,0,0 /FKY,16,0,0 /ABL,0; 737,/SPZ,KFQKHT,{Air pilot control in cats heating in part load},8 $C8DA,$D8A6 /SPW,138,1, 0., 102. /SPX,127,1, 0., 0.,922 /SPY,272,1, 0., 0.,1386 /FKX,8,0,0 /FKY,8,0,0 /ABL,0; 738,/SPZ,KFQLL,{Air pilot control idle / part load},8 $C8B8,$D526 /SPW,138,1, 0., 102. /SPX,127,1, 0., 0.,922 /SPY,168,1, 0., 0.,1204 /FKX,8,0,0 /FKY,8,0,0 /ABL,0; 739,/SPZ,KFQNTA,{Map pilot air correction tans-dependent},8 $C8BA,$D566 /SPW,138,1, 0., 102. /SPX,127,1, 0., 0.,922 /SPY,171,1, 0., 0.,1067 /FKX,8,0,0 /FKY,8,0,0 /ABL,0; 740,/SPZ,KFQSTMHA,{Air pilot control in the Start},8 $C8B4,$D4A6 /SPW,138,1, 0., 102. /SPX,168,1, 0., 0.,1204 /SPY,51,1, 0., 0.,679 /FKX,8,0,0 /FKY,8,0,0 /ABL,0; 741,/SPZ,KFRI,{I - Map},3 $F0B9,$F9D2 /SPW,92,1, 0.256364, 65.37283 /SPX,120,1, 0., 7650.,10 /SPY,180,1, 0., 12.24,19 /FKX,7,0,0 /FKY,6,0,0 /ABL,1; 742,/SPZ,KFRP,{P - Map},3 $F0BB,$FA0D /SPW,132,1, 0., 12.45117 /SPX,120,1, 0., 7650.,10 /SPY,180,1, 0., 12.24,19 /FKX,7,0,0 /FKY,6,0,0 /ABL,1; 743,/SPZ,KFRTV,{TV - Map},3 $F0BD,$FA48 /SPW,205,1,-999.936, 999.9359 /SPX,120,1, 480., 6540.,10 /SPY,180,1, 0.48, 8.016,19 /FKX,7,0,0 /FKY,6,0,0 /ABL,1; 744,/SPZ,KFSW,{dwell map},8 $F0A9,$F8C0 /SPW,290,1, 0., 191.25 /SPX,127,1, 0., 0.,919 /SPY,259,1, 0., 0.,1339 /FKX,16,0,0 /FKY,16,0,0 /ABL,0; 745,/SPZ,KFTATX,{characteristic map for maximum duty cycle},8 $C8EE,$DF76 /SPW,163,1, 0., 99.60938 /SPX,127,1, 0., 0.,919 /SPY,272,1, 0., 0.,1394 /FKX,16,0,0 /FKY,16,0,0 /ABL,0; 746,/SPZ,KFTEFMA,{target fuel regeneration rage},8 $C8EA,$DD76 /SPW,51,1, 0., 1.992188 /SPX,127,1, 0., 0.,919 /SPY,180,1, 0., 0.,1145 /FKX,16,0,0 /FKY,16,0,0 /ABL,0; 747,/SPZ,KFTEVG,{Duty ratio map tank venting valve},8 $C8F0,$E076 /SPW,163,1, 0., 99.60938 /SPX,127,1, 0., 0.,919 /SPY,272,1, 0., 0.,1394 /FKX,16,0,0 /FKY,16,0,0 /ABL,0; 748,/SPZ,KFTLSAL,{Load threshold achieving thrust detection for suppression of Misfire detection} 8 $C820,$EABE /SPW,180,1, 0., 12.24 /SPX,9,1, 0., 255.,589 /SPY,127,1, 0., 0.,919 /FKX,6,0,0 /FKY,16,0,0 /ABL,0; 749,/SPZ,KFTLWB,{TLW-map from DK-angle correction including bypass},8 $1314A,$13F78 /SPW,180,1, 0., 12.24 /SPX,127,1, 0., 0.,919 /SPY,272,1, 0., 0.,1394 /FKX,16,0,0 /FKY,16,0,0 /ABL,0; 750,/SPZ,KFTVH,{Duty factor correction in the height LDR},8 $C846,$E5F6 /SPW,75,1, 0., 99.60938 /SPX,127,1, 0., 0.,923 /SPY,51,1, 0., 0.,678 /FKX,16,0,0 /FKY,16,0,0 /ABL,0; 751,/SPZ,KFTVTA,{intake air temperature correction of ldr duty cycle},8 $C848,$E6F6 /SPW,75,1, 0., 99.60938 /SPX,127,1, 0., 0.,923 /SPY,171,1, 0., 0.,1066 /FKX,16,0,0 /FKY,16,0,0 /ABL,0; 752,/SPZ,KFTVVSLDR,{Duty cycle pilot control for LDR (tcv max duty cycle)},8 $C844,$E4F6 /SPW,75,1, 0., 99.60938 /SPX,274,1, 0., 0.,1390 /SPY,127,1, 0., 0.,923 /FKX,16,0,0 /FKY,16,0,0 /ABL,0; 753,/SPZ,KFVAKL,{deceleration leaning factor (K+L-component)},8 $C876,$CE06 /SPW,52,1, 0., 15.9375 /SPX,127,1, 0., 0.,922 /SPY,168,1, 0., 0.,1204 /FKX,8,0,0 /FKY,8,0,0 /ABL,0; 754,/SPZ,KFVAW,{Faktor Verzögerungsabmagerung Dk-Anteil},8 $C87A,$CE86 /SPW,73,1, 0., 31.875 /SPX,127,1, 0., 0.,922 /SPY,168,1, 0., 0.,1204 /FKX,8,0,0 /FKY,8,0,0 /ABL,0; 755,/SPZ,KFVOVG,{Map for flow through the open TEV},8 $C8EC,$DE76 /SPW,271,1, 0., 6.63 /SPX,127,1, 0., 0.,919 /SPY,272,1, 0., 0.,1394 /FKX,16,0,0 /FKY,16,0,0 /ABL,0; 756,/SPZ,KFWDKV,{Virtual throttle angle from bypass correction},8 $13148,$13E78 /SPW,272,1, 0., 95.83334 /SPX,272,1, 0., 0.,1385 /SPY,138,1, 0., 0.,976 /FKX,16,0,0 /FKY,16,0,0 /ABL,0; 757,/SPZ,KFWEB,{Characteristic field angle of injection},8 $13112,$14178 /SPW,278,1,-2., 574. /SPX,127,1, 0., 0.,919 /SPY,176,1, 0., 0.,1130 /FKX,16,0,0 /FKY,16,0,0 /ABL,0; 758,/SPZ,KFWL,{WL warmup - map},8 $C8E4,$DCE6 /SPW,60,1, 0., 0.996094 /SPX,127,1, 0., 0.,922 /SPY,180,1, 0., 0.,1147 /FKX,8,0,0 /FKY,8,0,0 /ABL,0; 759,/SPZ,KFWLL,{WL warmup map at idle},8 $C8E6,$DD26 /SPW,60,1, 0., 0.996094 /SPX,127,1, 0., 0.,922 /SPY,180,1, 0., 0.,1147 /FKX,8,0,0 /FKY,8,0,0 /ABL,0; 760,/SPZ,KFWSTMHA,{ignition at start},8 $C8B6,$D4E6 /SPW,289,1,-22.5, 75. /SPX,168,1, 0., 0.,1204 /SPY,51,1, 0., 0.,679 /FKX,8,0,0 /FKY,8,0,0 /ABL,0; 761,/SPZ,KFWWDKHH,{Weighting of ignition and control air for Kat Heating},8 $C8D8,$D866 /SPW,60,1, 0., 0.996094 /SPX,51,1, 0., 0.,679 /SPY,272,1, 0., 0.,1386 /FKX,8,0,0 /FKY,8,0,0 /ABL,0; 762,/SPZ,KFZGE,{Ignition timing map for gear engagement},5 $13348,$13348 /SPW,291,1,-45., 0. /SPX,87,1, 1., 3.,55 /SPY,126,1, 0., 7.,56 /FKX,3,0,1 /FKY,8,0,0 /ABL,0; 763,/SPZ,KFZUWE1,{UEF: Dwell step width Gang0/1},8 $1311E,$13578 /SPW,152,1, 0., 255. /SPX,180,1, 0., 0.,391 /SPY,127,1, 0., 0.,921 /FKX,8,0,0 /FKY,8,0,0 /ABL,0; 764,/SPZ,KFZUWE2,{UEF: Dwell step width Gang2},8 $13120,$135B8 /SPW,152,1, 0., 255. /SPX,180,1, 0., 0.,391 /SPY,127,1, 0., 0.,921 /FKX,8,0,0 /FKY,8,0,0 /ABL,0; 765,/SPZ,KFZUWE3,{UEF: Dwell step width Gang3/4/5},8 $13122,$135F8 /SPW,152,1, 0., 255. /SPX,180,1, 0., 0.,391 /SPY,127,1, 0., 0.,921 /FKX,8,0,0 /FKY,8,0,0 /ABL,0; 766,/SPZ,KFZW,{timing map},8 $1313C,$13C38 /SPW,289,1,-22.5, 75. /SPX,127,1, 0., 0.,919 /SPY,180,1, 0., 0.,1145 /FKX,16,0,0 /FKY,16,0,0 /ABL,0; 767,/SPZ,KFZWE,{Re-use timing map},8 $C8C2,$D5D6 /SPW,291,1,-191.25, 0. /SPX,127,1, 0., 0.,919 /SPY,168,1, 0., 0.,1202 /FKX,16,0,0 /FKY,16,0,0 /ABL,0; 768,/SPZ,KHEZU,{max. number of ignitions after start for ending catalst heating},1 $F1AB,$F1AB /SPW,280,1, 0., 10200. /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 769,/SPZ,KHTABG,{correction factor of the heating resistor for the exhaust gas temperature change},1 $C91B,$C91B /SPW,136,1, 0.,0.0897979 /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 770,/SPZ,KHUB,{correction factor of the heating resistor for battery voltage change},1 $C91A,$C91A /SPW,137,1, 0., 5.1 /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 771,/SPZ,KLDKTML,{correction curve =f(ML) für AVKAT},2 $13166,$14310 /SPW,60,1, 0., 0.996094 /SPX,106,1, 0., 408.,8 /SPY,0,0, 0., 0.,0 /FKX,4,0,0 /FKY,0,0,0 /ABL,1; 772,/SPZ,KLDKTTV,{Korrekturkennlinie = f(TVLR) für AVKAT},2 $13168,$1431A /SPW,60,1, 0., 0.996094 /SPX,192,1, 0., 3.03552,16 /SPY,0,0, 0., 0.,0 /FKX,4,0,0 /FKY,0,0,0 /ABL,1; 773,/SPZ,KLLARHF {Weighting factor P component LHK, effective for richer probe voltage Diff. behind cat},2 $F0B1,$FADF /SPW,60,1, 0., 0.996094 /SPX,14,1, 0., 0.159375,2 /SPY,0,0, 0., 0.,0 /FKX,4,0,0 /FKY,0,0,0 /ABL,1; 774,/SPZ,KLLARHM {Weighting factor P component LHK, effective for leaner probe voltage Diff. behind cat},2 $F0B3,$FAE9 /SPW,60,1, 0., 0.996094 /SPX,14,1, 0., 0.159375,2 /SPY,0,0, 0., 0.,0 /FKX,6,0,0 /FKY,0,0,0 /ABL,1; 775,/SPZ,KLUSLA,{Setpoint for linearized probe voltage in regulation after catalyst},2 $F0AF,$FACD /SPW,101,1, 0.92, 1.079375 /SPX,269,1,-0.177225, 1.072775,27 /SPY,0,0, 0., 0.,0 /FKX,8,0,0 /FKY,0,0,0 /ABL,1; 776,/SPZ,KLWF,{Fuel wall film},4 $132E5,$132E5 /SPW,277,1, 0., 783.36 /SPX,185,1, 0., 12.288,21 /SPY,0,0, 0., 0.,0 /FKX,17,4,0 /FKY,0,0,0 /ABL,0; 777,/SPZ,KLZWL,{Ignition angle characteristic curve at idle},7 $1313E,$13D38 /SPW,289,1,-22.5, 75. /SPX,127,1, 0., 0.,919 /SPY,0,0, 0., 0.,0 /FKX,16,0,0 /FKY,0,0,0 /ABL,0; 778,/SPZ,KNLL,{Factor setpoint speed tracking},1 $131BE,$131BE /SPW,60,1, 0., 0.996094 /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 779,/SPZ,KONFIG,{Hardware-Konfiguration},1 $C8FC,$C8FC /SPW,9,1, 0., 255. /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 780,/SPZ,KRAFRS,{Factor for reducing the step width at KRA},1 $F235,$F235 /SPW,59,1, 0.390625E-2, 1. /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 781,/SPZ,KRAL1,{Knock control range load adaptation, support location 1},4 $F233,$F233 /SPW,180,1, 0., 9.984 /SPX,9,1, 0., 1.,6 /SPY,0,0, 0., 0.,0 /FKX,2,0,0 /FKY,0,0,0 /ABL,0; 782,/SPZ,KRALH,{knock regular adaptation load hysterese},1 $F232,$F232 /SPW,180,1, 0., 12.24 /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 783,/SPZ,KRAN1,{Knock control adaptation speed range, supporting point 1},4 $F22E,$F22E /SPW,120,1, 0., 6000. /SPX,9,1, 0., 3.,6 /SPY,0,0, 0., 0.,0 /FKX,4,0,0 /FKY,0,0,0 /ABL,0; 784,/SPZ,KRANH,{knock regular adaptation speed hysteresis},1 $F22D,$F22D /SPW,120,1, 0., 7650. /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 785,/SPZ,KRFKN,{late adjustment per knock event},7 $C8A4,$D426 /SPW,291,1,-191.25, 0. /SPX,127,1, 0., 0.,919 /SPY,0,0, 0., 0.,0 /FKX,16,0,0 /FKY,0,0,0 /ABL,0; 786,/SPZ,KRFTP1,{Low-pass behavior normal},1 $F221,$F221 /SPW,9,1, 0., 255. /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 787,/SPZ,KRFTP3,{low-pass behavior with dynamic load},1 $F238,$F238 /SPW,9,1, 0., 255. /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 788,/SPZ,KRIMX,{absolute knock detection threshold},1 $F220,$F220 /SPW,258,1, 0., 4980.469 /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 789,/SPZ,KRMXN,{maximum retard},7 $C8A2,$D416 /SPW,291,1,-191.25, 0. /SPX,127,1, 0., 0.,919 /SPY,0,0, 0., 0.,0 /FKX,16,0,0 /FKY,0,0,0 /ABL,0; 790,/SPZ,KRVFN1,{number of firings per one increment early adjustment},7 $C8A6,$D436 /SPW,9,1, 0., 255. /SPX,127,1, 0., 0.,919 /SPY,0,0, 0., 0.,0 /FKX,16,0,0 /FKY,0,0,0 /ABL,0; 791,/SPZ,KRVFN2 {KR-no. Ignition. of Frühverst. to Frühverst. at steady-KR-adaptation},7 $C8A8,$D446 /SPW,9,1, 0., 255. /SPX,127,1, 0., 0.,919 /SPY,0,0, 0., 0.,0 /FKX,16,0,0 /FKY,0,0,0 /ABL,0; 792,/SPZ,KRVST,{Increase after start},1 $F228,$F228 /SPW,9,1, 0., 255. /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 793,/SPZ,KSTAI,{Work areas for STADAP factors},7 $F0C1,$FA83 /SPW,9,1, 0., 255. /SPX,168,1, 0., 0.,1202 /SPY,0,0, 0., 0.,0 /FKX,16,0,0 /FKY,0,0,0 /ABL,0; 794,/SPZ,KSTAMXI,{Max-Begrenzung des STADAP-Faktors},13 $13366,$13366 /SPW,51,1, 0., 1.992188 /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,3,0,0 /FKY,0,0,0 /ABL,0; 795,/SPZ,KVB,{Constant for consumption display},1 $C9E4,$C9E4 /SPW,98,2, 0., 52.08254 /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 796,/SPZ,LAAFVMN,{Minimale Lambda-Amplitude (gefiltert) vor Kat für gültiges AV},1 $F123,$F123 /SPW,268,1, 0., 1.25 /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 797,/SPZ,LDAAV,{Error -> Lamp: Valve active carbon filter (Funktion)},1 $F2E6,$F2E6 /SPW,9,1, 0., 255. /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 798,/SPZ,LDAAVE,{Error -> Lamp: Valve active carbon filter (Endstufe)},1 $F2E7,$F2E7 /SPW,9,1, 0., 255. /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 799,/SPZ,LDAGRF,{Error -> Lamp: Überwachung EGR-FLOW},1 $F2E2,$F2E2 /SPW,9,1, 0., 255. /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 800,/SPZ,LDASE,{Error -> Lamp: Misfire detection, Summe (multiple), emission-relevant},1 $F2D0,$F2D0 /SPW,9,1, 0., 255. /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 801,/SPZ,LDASE1,{Error -> Lamp: Misfire detection CYL. 1, emission-relevant},1 $F2D1,$F2D1 /SPW,9,1, 0., 255. /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 802,/SPZ,LDASE2,{Error -> Lamp: Misfire detection CYL. 2, emission-relevant},1 $F2D2,$F2D2 /SPW,9,1, 0., 255. /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 803,/SPZ,LDASE3,{Error -> Lamp: Misfire detection CYL. 3, emission-relevant},1 $F2D5,$F2D5 /SPW,9,1, 0., 255. /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 804,/SPZ,LDASE4,{Error -> Lamp: Misfire detection CYL. 4, emission-relevant},1 $F2D3,$F2D3 /SPW,9,1, 0., 255. /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 805,/SPZ,LDASE5,{Error -> Lamp: Misfire detection CYL. 5, emission-relevant},1 $F2D4,$F2D4 /SPW,9,1, 0., 255. /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 806,/SPZ,LDASK,{Error -> Lamp: Misfire detection, Summe (multiple), catalyst-damaging},1 $F2D6,$F2D6 /SPW,9,1, 0., 255. /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 807,/SPZ,LDASK1,{Error -> Lamp: Misfire detection CYL. 1, catalyst-damaging},1 $F2D7,$F2D7 /SPW,9,1, 0., 255. /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 808,/SPZ,LDASK2,{Error -> Lamp: Misfire detection CYL. 2, catalyst-damaging},1 $F2D8,$F2D8 /SPW,9,1, 0., 255. /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 809,/SPZ,LDASK3,{Error -> Lamp: Misfire detection CYL. 3, catalyst-damaging},1 $F2DB,$F2DB /SPW,9,1, 0., 255. /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 810,/SPZ,LDASK4,{Error -> Lamp: Misfire detection CYL. 4, catalyst-damaging},1 $F2D9,$F2D9 /SPW,9,1, 0., 255. /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 811,/SPZ,LDASK5,{Error -> Lamp: Misfire detection CYL. 5, catalyst-damaging},1 $F2DA,$F2DA /SPW,9,1, 0., 255. /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 812,/SPZ,LDBAA,{Error -> Lamp: Bedarfsadaption am Anschlag},1 $F309,$F309 /SPW,9,1, 0., 255. /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 813,/SPZ,LDBM,{Error -> Lamp: Bezugsmarkengeber},1 $F2EE,$F2EE /SPW,9,1, 0., 255. /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 814,/SPZ,LDCGE,{Error -> Lamp: CAN-Interface, Timeout EGS},1 $F30D,$F30D /SPW,9,1, 0., 255. /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 815,/SPZ,LDCIF,{Error -> Lamp: CAN-Interface, interner Fehler},1 $F308,$F308 /SPW,9,1, 0., 255. /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 816,/SPZ,LDDF,{Error -> Lamp: pressure sensor},1 $F314,$F314 /SPW,9,1, 0., 255. /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 817,/SPZ,LDDK,{Error -> Lamp: DK - Potentiometer},1 $F2F1,$F2F1 /SPW,9,1, 0., 255. /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 818,/SPZ,LDDPL,{Error -> Lamp: Dauerplus},1 $F2EC,$F2EC /SPW,9,1, 0., 255. /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 819,/SPZ,LDDST,{Error -> Lamp: Drucksensor Tank},1 $F2E9,$F2E9 /SPW,9,1, 0., 255. /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 820,/SPZ,LDDTV,{Error -> Lamp: LR-adaptation ti-additive},1 $F2CD,$F2CD /SPW,9,1, 0., 255. /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 821,/SPZ,LDEGA,{Error -> Lamp: unbekannter Endstufen - Fehler (Endstufengruppe A)},1 $F2FF,$F2FF /SPW,9,1, 0., 255. /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 822,/SPZ,LDEGB,{Error -> Lamp: unbekannter Endstufen - Fehler (Endstufengruppe B)},1 $F300,$F300 /SPW,9,1, 0., 255. /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 823,/SPZ,LDEGC,{Error -> Lamp: unbekannter Endstufen - Fehler (Endstufengruppe C)},1 $F301,$F301 /SPW,9,1, 0., 255. /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 824,/SPZ,LDEGD,{Error -> Lamp: unbekannter Endstufen - Fehler (Endstufengruppe D)},1 $F302,$F302 /SPW,9,1, 0., 255. /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 825,/SPZ,LDEGE,{Error -> Lamp: unbekannter Endstufen - Fehler (Endstufengruppe E)},1 $F303,$F303 /SPW,9,1, 0., 255. /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 826,/SPZ,LDEGF,{Error -> Lamp: unknown output stage - error (output stage F)},1 $F304,$F304 /SPW,9,1, 0., 255. /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 827,/SPZ,LDEV1,{Error -> Lamp: EV of Cyl. 1},1 $F2F6,$F2F6 /SPW,9,1, 0., 255. /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 828,/SPZ,LDEV2,{Error -> Lamp: EV of Cyl. 2},1 $F2F7,$F2F7 /SPW,9,1, 0., 255. /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 829,/SPZ,LDEV3,{Error -> Lamp: EV of Cyl. 3},1 $F2F8,$F2F8 /SPW,9,1, 0., 255. /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 830,/SPZ,LDEV4,{Error -> Lamp: EV of Cyl. 4},1 $F2F9,$F2F9 /SPW,9,1, 0., 255. /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 831,/SPZ,LDEV5,{Error -> Lamp: EV of Cyl. 5},1 $F2FA,$F2FA /SPW,9,1, 0., 255. /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 832,/SPZ,LDFRA,{Error -> Lamp: LR-adaptation multiplikativ},1 $F2CB,$F2CB /SPW,9,1, 0., 255. /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 833,/SPZ,LDHSH,{Error -> Lamp: Lambda probe heating behind catalytic converter},1 $F2C7,$F2C7 /SPW,9,1, 0., 255. /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 834,/SPZ,LDHSV,{Error -> Lamp: Oxygen sensor heating before catalytic converter},1 $F2C6,$F2C6 /SPW,9,1, 0., 255. /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 835,/SPZ,LDKAT,{Error -> Lamp: Catalyst Conversion},1 $F2CF,$F2CF /SPW,9,1, 0., 255. /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 836,/SPZ,LDKRT,{Error -> Lamp: Knock Control Test Pulse},1 $F307,$F307 /SPW,9,1, 0., 255. /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 837,/SPZ,LDKS1,{Error -> Lamp: knock sensor 1},1 $F305,$F305 /SPW,9,1, 0., 255. /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 838,/SPZ,LDKS2,{Error -> Lamp: knock sensor 2},1 $F306,$F306 /SPW,9,1, 0., 255. /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 839,/SPZ,LDLASH,{Error -> Lamp: Lambda probe aging behind cat},1 $F2CA,$F2CA /SPW,9,1, 0., 255. /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 840,/SPZ,LDLATP,{Error -> Lamp: Lambda probe aging TP},1 $F2C8,$F2C8 /SPW,9,1, 0., 255. /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 841,/SPZ,LDLATV,{Error -> Lamp: Lambda probe aging TV},1 $F2C9,$F2C9 /SPW,9,1, 0., 255. /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 842,/SPZ,LDLDAB,{Error -> Lamp: Boost pressure reduction},1 $F30A,$F30A /SPW,9,1, 0., 255. /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 843,/SPZ,LDLDE,{Error -> Lamp: Boost pressure control valve (Endstufe)},1 $F2FE,$F2FE /SPW,9,1, 0., 255. /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 844,/SPZ,LDLDO,{Error -> Lamp: Boost pressure characteristic; exceeded upper value},1 $F30B,$F30B /SPW,9,1, 0., 255. /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 845,/SPZ,LDLDRA,{Error -> Lamp: Charge pressure deviation},1 $F30C,$F30C /SPW,9,1, 0., 255. /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 846,/SPZ,LDLE,{Error -> Lamp: load sensing},1 $F315,$F315 /SPW,9,1, 0., 255. /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 847,/SPZ,LDLM,{Error -> Lamp: LMM/HLM/HFM},1 $F2F0,$F2F0 /SPW,9,1, 0., 255. /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 848,/SPZ,LDLSH,{Error -> Lamp: Lambda-Sonde behind cat},1 $F2C5,$F2C5 /SPW,9,1, 0., 255. /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 849,/SPZ,LDLSV,{Error -> Lamp: Lambda-Sonde vor Kat},1 $F2C4,$F2C4 /SPW,9,1, 0., 255. /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 850,/SPZ,LDLUEA,{Error -> Lamp: Endstufe Lüfter A},1 $F311,$F311 /SPW,9,1, 0., 255. /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 851,/SPZ,LDMFA,{Error -> Lamp: MIL-fremdbestimmt},1 $F2CE,$F2CE /SPW,9,1, 0., 255. /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 852,/SPZ,LDMFB,{Error -> Lamp: MIL-request - Leitung},1 $F2FB,$F2FB /SPW,9,1, 0., 255. /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 853,/SPZ,LDN,{Error -> Lamp: Speed ??signal generator},1 $F2ED,$F2ED /SPW,9,1, 0., 255. /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 854,/SPZ,LDNO,{Error -> Lamp: kein Fehler erkannt},1 $F2C3,$F2C3 /SPW,9,1, 0., 255. /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 855,/SPZ,LDPAC,{Error -> Lamp: Druck in Klimasystem},1 $F2F5,$F2F5 /SPW,9,1, 0., 255. /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 856,/SPZ,LDPH,{Error -> Lamp: Phasensensor},1 $F2EF,$F2EF /SPW,9,1, 0., 255. /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 857,/SPZ,LDRIV,{Stützstellenabstand |Psoll - Pist| für KFP2 und KFP3},1 $1320C,$1320C /SPW,60,1, 0., 0.996094 /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 858,/SPZ,LDSGROM,{Error -> Lamp: control unit defective (ROM)},1 $F2EA,$F2EA /SPW,9,1, 0., 255. /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 859,/SPZ,LDSLP,{Error -> Lamp: Secondary Air Pump},1 $F2DE,$F2DE /SPW,9,1, 0., 255. /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 860,/SPZ,LDSLPE,{Error -> Lamp: Secondary Air Pump (output stage)},1 $F2E0,$F2E0 /SPW,9,1, 0., 255. /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 861,/SPZ,LDSLS,{Error -> Lamp: Secondary Air System},1 $F2DD,$F2DD /SPW,9,1, 0., 255. /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 862,/SPZ,LDSLV,{Error -> Lamp: Secondary Air Valve},1 $F2DF,$F2DF /SPW,9,1, 0., 255. /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 863,/SPZ,LDSLVE,{Error -> Lamp: Secondary Air Valve (Endstufe)},1 $F2E1,$F2E1 /SPW,9,1, 0., 255. /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 864,/SPZ,LDSWE,{Error -> Lamp: Acceleration sensor for rough road detection},1 $F2DC,$F2DC /SPW,9,1, 0., 255. /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 865,/SPZ,LDTA,{Error -> Lamp: TANS},1 $F312,$F312 /SPW,9,1, 0., 255. /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 866,/SPZ,LDTES,{Error -> Lamp: tank venting system},1 $F2E5,$F2E5 /SPW,9,1, 0., 255. /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 867,/SPZ,LDTESF,{Error -> Lamp: tank venting system fine leak},1 $F2E3,$F2E3 /SPW,9,1, 0., 255. /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 868,/SPZ,LDTESG,{Error -> Lamp: tank venting system gross leak},1 $F2E4,$F2E4 /SPW,9,1, 0., 255. /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 869,/SPZ,LDTEVE,{Error -> Lamp: tank venting valve Endstufe},1 $F2E8,$F2E8 /SPW,9,1, 0., 255. /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 870,/SPZ,LDTM,{Error -> Lamp: TMOT},1 $F2F3,$F2F3 /SPW,9,1, 0., 255. /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 871,/SPZ,LDTMUM,{Error -> Lamp: TMOT-changeover},1 $F30E,$F30E /SPW,9,1, 0., 255. /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 872,/SPZ,LDTRA,{Error -> Lamp: LR-adaptation QL-additiv},1 $F2CC,$F2CC /SPW,9,1, 0., 255. /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 873,/SPZ,LDTX,{Error -> Lamp: Temperature EBOX},1 $F2F4,$F2F4 /SPW,9,1, 0., 255. /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 874,/SPZ,LDTX1S,{Error -> Lamp: Temperature EBOX 1. Schwelle},1 $F30F,$F30F /SPW,9,1, 0., 255. /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 875,/SPZ,LDTX2S,{Error -> Lamp: Temperature EBOX 2. Schwelle},1 $F310,$F310 /SPW,9,1, 0., 255. /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 876,/SPZ,LDUB,{Error -> Lamp: UB},1 $F2EB,$F2EB /SPW,9,1, 0., 255. /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 877,/SPZ,LDVFZ,{Error -> Lamp: Vehicle speed},1 $F2F2,$F2F2 /SPW,9,1, 0., 255. /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 878,/SPZ,LDWFS,{Error -> Lamp: immobilizer},1 $F313,$F313 /SPW,9,1, 0., 255. /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 879,/SPZ,LDZO,{Error -> Lamp: Opened idle adjuster},1 $F2FC,$F2FC /SPW,9,1, 0., 255. /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 880,/SPZ,LDZS,{Error -> Lamp: Close idle adjuster},1 $F2FD,$F2FD /SPW,9,1, 0., 255. /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 881,/SPZ,LISTM,{Value of the idle integrator in the Start},7 $F0A7,$F8B0 /SPW,91,1,-51.2, 50.8 /SPX,168,1, 0., 0.,1202 /SPY,0,0, 0., 0.,0 /FKX,16,0,0 /FKY,0,0,0 /ABL,0; 882,/SPZ,LLDKTZ,{Sperrzeit für Übergang LL -> TL und TL -> LL für DKAT},1 $F125,$F125 /SPW,251,1, 0., 24.28416 /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 883,/SPZ,LURKTM,{Tmot-abhängiger Laufunruhe-Referenz-Korrekturwert},7 $C826,$ED1E /SPW,104,1, 0., 131.9374 /SPX,168,1, 0., 0.,1202 /SPY,0,0, 0., 0.,0 /FKX,16,0,0 /FKY,0,0,0 /ABL,0; 884,/SPZ,LURMINN,{Drehzahlabh. Laufunruhe-Referenz-Minimalwert},7 $C82A,$ED3E /SPW,104,1, 0., 131.9374 /SPX,127,1, 0., 0.,919 /SPY,0,0, 0., 0.,0 /FKX,16,0,0 /FKY,0,0,0 /ABL,0; 885,/SPZ,MESTTE,{Injection model From the Start},4 $C9EC,$C9EC /SPW,9,1, 0., 255. /SPX,178,1, 0., 92.16,44 /SPY,0,0, 0., 0.,0 /FKX,16,0,0 /FKY,0,0,0 /ABL,0; 886,/SPZ,MLDLLWK,{mL-Schwelle für HFM-Error Detection Leerlauf},4 $CA73,$CA73 /SPW,106,1, 0., 408. /SPX,273,1, 0., 106.6667,49 /SPY,0,0, 0., 0.,0 /FKX,17,4,0 /FKY,0,0,0 /ABL,0; 887,/SPZ,MLDMN,{HLM/HFM - Error Detection; Minimalwert},1 $F18B,$F18B /SPW,106,1, 0., 408. /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 888,/SPZ,MLDMX,{HLM/HFM - Error Detection; Maximalwert},1 $F18C,$F18C /SPW,106,1, 0., 408. /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 889,/SPZ,MLLRH,{Air mass threshold for closing readiness scheme behind cat},1 $F0EC,$F0EC /SPW,117,1, 0., 227.3698 /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 890,/SPZ,MLO1,{upper air flow threshold range 1},1 $F20C,$F20C /SPW,106,1, 16., 385.6 /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 891,/SPZ,MLO3,{upper air flow threshold range 3},1 $F20E,$F20E /SPW,106,1, 0., 408. /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 892,/SPZ,MLU2,{lower air flow rate threshold range 2},1 $F20D,$F20D /SPW,106,1, 16., 385.6 /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 893,/SPZ,NDBVLE,{Drehzahlschwelle für Bed. VL-Ersatzwert bei DK-Fehler},1 $F21A,$F21A /SPW,120,1, 0., 7650. /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 894,/SPZ,NDKS,{speed threshold for KS},1 $F229,$F229 /SPW,127,1, 0., 7650. /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 895,/SPZ,NDLDRA,{Drehzahlschwelle für Dia LDR - Regelabweichung},1 $1320F,$1320F /SPW,127,1, 0., 7650. /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 896,/SPZ,NDLE,{Speed threshold diagnostic load sensing},1 $C9E9,$C9E9 /SPW,127,1, 0., 7650. /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 897,/SPZ,NDLMLL,{Drehzahlschwelle für HFM-Error Detection Leerlauf},1 $F18F,$F18F /SPW,121,1, 0., 2550. /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 898,/SPZ,NDLMMN,{Speed threshold for diagnosis LMM / HLM / HFM - minimum value},1 $F18D,$F18D /SPW,121,1, 0., 2550. /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 899,/SPZ,NDLMMX,{DSpeed threshold for diagnosis LMM / HLM / HFM - maximum value},1 $F18E,$F18E /SPW,120,1, 0., 7650. /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 900,/SPZ,NDSU,{Differential rotational speed for Integrator Reset},1 $131B9,$131B9 /SPW,121,1, 0., 2550. /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 901,/SPZ,NDV,{fault detection speed signal / speed threshold minimum},1 $C9C8,$C9C8 /SPW,127,1, 0., 7650. /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 902,/SPZ,NEKP,{Speed ??threshold for frequency switching EKP relay},1 $C976,$C976 /SPW,127,1, 0., 7650. /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 903,/SPZ,NFLX,{maximum tracking speed},1 $131BB,$131BB /SPW,121,1, 0., 2550. /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 904,/SPZ,NFSM,{Solldrehzahl Fahrstufenschalter ein},7 $C8AC,$D466 /SPW,121,1, 0., 2550. /SPX,168,1, 0., 0.,1202 /SPY,0,0, 0., 0.,0 /FKX,16,0,0 /FKY,0,0,0 /ABL,0; 905,/SPZ,NGBM,{Speed threshold for error detection in BM outside the measurement window},1 $F188,$F188 /SPW,127,1, 0., 7650. /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 906,/SPZ,NGWE,{Speed gradient at WE},1 $F1C8,$F1C8 /SPW,125,1, 0., 80645.16 /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 907,/SPZ,NLF,{Speed threshold for motor fan control},1 $C90B,$C90B /SPW,127,1, 0., 7650. /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 908,/SPZ,NLLM,{Target rotational speed},7 $C8AE,$D476 /SPW,121,1, 0., 2550. /SPX,168,1, 0., 0.,1202 /SPY,0,0, 0., 0.,0 /FKX,16,0,0 /FKY,0,0,0 /ABL,0; 909,/SPZ,NLLMX,{upper threshold for n-ll-recognition in the running smoothness calculation},1 $F249,$F249 /SPW,127,1, 0., 7650. /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 910,/SPZ,NLRHO,{upper engine speed limit for control behind Kat},1 $F0EA,$F0EA /SPW,120,1, 0., 7650. /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 911,/SPZ,NLRHU,{lower engine speed limit for control behind Kat},1 $F0E9,$F0E9 /SPW,120,1, 0., 7650. /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 912,/SPZ,NLRSHB {Speed threshold, turning off LR in thrust and in conjunction with LL TLLRSHB},1 $F0F7,$F0F7 /SPW,120,1, 0., 7650. /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 913,/SPZ,NMAX,{Speed limit},1 $F1D2,$F1D2 /SPW,127,1, 0., 7650. /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 914,/SPZ,NMAXD,{Permanent speed limit},1 $F1D4,$F1D4 /SPW,127,1, 0., 7650. /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 915,/SPZ,NMAXRS,{Reset - Schwelle Drehzahlbegrenzung},1 $F1D5,$F1D5 /SPW,127,1, 0., 7650. /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 916,/SPZ,NMFB,{MIL fremdbestimmt; Drehzahlschwelle für Ende der Funktionsprüfung},1 $F26B,$F26B /SPW,127,1, 0., 7650. /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 917,/SPZ,NMIALUG,{Min. Drehzahl für Ausblendung der Misfire detection, Gangabhängig},4 $1333A,$1333A /SPW,127,1, 0., 7650. /SPX,9,1, 0., 5.,6 /SPY,0,0, 0., 0.,0 /FKX,6,0,0 /FKY,0,0,0 /ABL,0; 918,/SPZ,NMIZAD,{Minimum rotational speed for adaptation of toothed disc},1 $F23C,$F23C /SPW,127,1, 0., 7650. /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 919,/SPZ,NMOTGR1,{Drehzahlstützstellen (NMOT) Gruppe 1},6 $F08F,$F84E /SPW,0,0, 0., 0. /SPX,127,1, 0., 7650.,15 /SPY,0,0, 0., 0.,0 /FKX,16,0,0 /FKY,0,0,0 /ABL,2; 920,/SPZ,NMOTGR28S,{Drehzahlstützstellen (NMOT) Gruppe 2 (8 Stützstellen)},6 $F093,$F86C /SPW,0,0, 0., 0. /SPX,127,1, 0., 7650.,15 /SPY,0,0, 0., 0.,0 /FKX,8,0,0 /FKY,0,0,0 /ABL,2; 921,/SPZ,NMOTGR38S,{Drehzahlstützstellen (NMOT) Gruppe 3 (8 Stützstellen)},6 $F095,$F877 /SPW,0,0, 0., 0. /SPX,127,1, 0., 7650.,15 /SPY,0,0, 0., 0.,0 /FKX,8,0,0 /FKY,0,0,0 /ABL,2; 922,/SPZ,NMOTGR8S,{Drehzahlstützstellen},6 $F091,$F861 /SPW,0,0, 0., 0. /SPX,127,1, 0., 7650.,15 /SPY,0,0, 0., 0.,0 /FKX,8,0,0 /FKY,0,0,0 /ABL,2; 923,/SPZ,NMOTGR_LMR,{Speed reference points for LMR-maps},6 $C83A,$CC64 /SPW,0,0, 0., 0. /SPX,127,1, 0., 7650.,15 /SPY,0,0, 0., 0.,0 /FKX,16,0,0 /FKY,0,0,0 /ABL,2; 924,/SPZ,NMXALU,{Max. Drehzahl für Ausblendung der Misfire detection},1 $F24E,$F24E /SPW,127,1, 0., 7650. /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 925,/SPZ,NMXZAD,{Maximum speed for adaptation of toothed disc},1 $F23D,$F23D /SPW,127,1, 0., 7650. /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 926,/SPZ,NNST,{Drehzahlübergang Normal -> Start},1 $C92A,$C92A /SPW,127,1, 0., 7650. /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 927,/SPZ,NO1,{upper engine speed threshold range 1},1 $F20F,$F20F /SPW,120,1, 390., 6000. /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 928,/SPZ,NOBS,{Speed threshold for overboost start},1 $C9B8,$C9B8 /SPW,127,1, 0., 7650. /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 929,/SPZ,NOLRA,{Code Word for adaptation enable},1 $F20B,$F20B /SPW,9,1, 0., 7. /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 930,/SPZ,NRVL,{n-threshold for LR-off at full load},1 $F0F3,$F0F3 /SPW,120,1, 0., 7650. /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 931,/SPZ,NSAC,{Solldrehzahl bei Klimaanlage ein (S_AC = 1)},1 $131BA,$131BA /SPW,121,1, 0., 2550. /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 932,/SPZ,NSADPG,{SAS-Drehzahl bei Diagnose LLS-Fehler bei pos. n-Gradient},1 $F1C4,$F1C4 /SPW,127,1, 0., 7650. /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 933,/SPZ,NSADPGD,{SAS Drehzahl bei Diagnose LLS-Fehler bei pos. n-Gradient in 'Drive'},1 $F1C5,$F1C5 /SPW,127,1, 0., 7650. /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 934,/SPZ,NSTAMXHA,{Höhenabhängige Drehzahlschwelle für STADAP aktiv},7 $C88E,$D0A6 /SPW,121,1, 0., 2550. /SPX,51,1, 0., 0.,678 /SPY,0,0, 0., 0.,0 /FKX,16,0,0 /FKY,0,0,0 /ABL,0; 935,/SPZ,NSTL,{LLR Startende Drehzahl},1 $131B8,$131B8 /SPW,121,1, 0., 2550. /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 936,/SPZ,NSTNM,{Übergang Start -> Normal},4 $CA2F,$CA2F /SPW,127,1, 0., 7650. /SPX,169,1,-80., 176.,23 /SPY,0,0, 0., 0.,0 /FKX,17,4,0 /FKY,0,0,0 /ABL,0; 937,/SPZ,NTPKTO,{upper speed threshold for short-period test},1 $F1EA,$F1EA /SPW,120,1, 0., 7650. /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 938,/SPZ,NTPKTU,{lower speed threshold for short-period test},1 $F1E9,$F1E9 /SPW,120,1, 0., 7650. /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 939,/SPZ,NTPVKO,{upper speed threshold for monitoring period before cat},1 $F1E8,$F1E8 /SPW,120,1, 0., 7650. /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 940,/SPZ,NTPVKU,{lower speed threshold for monitoring period before cat},1 $F1E7,$F1E7 /SPW,120,1, 0., 7650. /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 941,/SPZ,NU3,{lower speed threshold range 3},1 $F210,$F210 /SPW,120,1, 390., 6000. /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 942,/SPZ,NUB,{Drehzahl bei UBATT min},1 $131B6,$131B6 /SPW,121,1, 0., 2550. /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 943,/SPZ,NUBS,{UBATT-Schwelle für Solldrehzahl NUB},1 $131B7,$131B7 /SPW,259,1, 0., 17.53699 /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 944,/SPZ,NWEDNG,{SWE-Drehzahl bei Diagnose LLS-Fehler bei neg. n-Gradient},1 $F1C6,$F1C6 /SPW,127,1, 0., 7650. /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 945,/SPZ,NWEDNGD,{SWE-Drehzahl bei Diagnose LLS-Fehler bei neg. n-Gradient in 'Drive'},1 $F1C7,$F1C7 /SPW,127,1, 0., 7650. /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 946,/SPZ,NWEM,{Resume engine speed},7 $C8C0,$D5C6 /SPW,120,1, 0., 7650. /SPX,168,1, 0., 0.,1202 /SPY,0,0, 0., 0.,0 /FKX,16,0,0 /FKY,0,0,0 /ABL,0; 947,/SPZ,NWENG,{Resume engine speed},4 $CA51,$CA51 /SPW,127,1, 0., 7650. /SPX,125,1, 0., 80645.16,14 /SPY,0,0, 0., 0.,0 /FKX,17,4,0 /FKY,0,0,0 /ABL,0; 948,/SPZ,PACDE,{substitute value pressure in the climate system in case of failure},1 $C97F,$C97F /SPW,1,1,-175.9825, 3275.983 /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 949,/SPZ,PACDMN,{minimum pressure in the climate system},1 $C97A,$C97A /SPW,1,1,-175.9825, 3275.983 /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 950,/SPZ,PACDMX,{maximum pressure in the climate system},1 $C979,$C979 /SPW,1,1,-175.9825, 3275.983 /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 951,/SPZ,PACLFO,{upper pressure threshold for AC motor fan control},1 $C90E,$C90E /SPW,1,1,-175.9825, 3275.983 /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 952,/SPZ,PACLFU,{lower pressure threshold for AC motor fan control},1 $C90D,$C90D /SPW,1,1,-175.9825, 3275.983 /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 953,/SPZ,PACREL,{AC pressure threshold for switching off AC relay},1 $C94D,$C94D /SPW,1,1,-175.9825, 3275.983 /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 954,/SPZ,PISTBG,{Begr. Pist},1 $C9BB,$C9BB /SPW,180,1, 0., 12.24 /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 955,/SPZ,PLDRN,{P - Anteil Ladedruckregler},7 $1315A,$142D8 /SPW,9,1, 0., 255. /SPX,127,1, 0., 0.,919 /SPY,0,0, 0., 0.,0 /FKX,16,0,0 /FKY,0,0,0 /ABL,0; 956,/SPZ,PLRHAV,{Wichtungsfaktor des P-Anteils in der LRHK über KAT-Alterung},4 $F7DB,$F7DB /SPW,141,1, 0., 3035.52 /SPX,79,1, 0., 1.,30 /SPY,0,0, 0., 0.,0 /FKX,17,4,0 /FKY,0,0,0 /ABL,0; 957,/SPZ,PSLDMX,{LDR reference limit at high engine temperature},1 $C9BC,$C9BC /SPW,180,1, 0., 12.24 /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 958,/SPZ,PSMX,{Maximum value of the A at TMOT> TMLD},1 $C9B7,$C9B7 /SPW,180,1, 0., 12.24 /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 959,/SPZ,PSOLKR,{Threshold sum Spätverst for LDA},8 $C850,$E7FE /SPW,291,1,-191.25, 0. /SPX,127,1, 0., 0.,919 /SPY,180,1, 0., 0.,1145 /FKX,16,0,0 /FKY,16,0,0 /ABL,0; 960,/SPZ,PSOLSL,{Time per charge pressure increase by 1 incr.},7 $C858,$E916 E9F4 in 607 /SPW,143,1, 0., 18.21312 /SPX,120,1, 0., 7650.,1048 /SPY,0,0, 0., 0.,0 /FKX,8,0,0 /FKY,0,0,0 /ABL,0; 961,/SPZ,PSOLSP,{Waiting time between 2 normal LD - subsidence},7 $C856,$E90E /SPW,143,1, 0., 18.21312 /SPX,120,1, 0., 7650.,1048 /SPY,0,0, 0., 0.,0 /FKX,8,0,0 /FKY,0,0,0 /ABL,0; 962,/SPZ,PTEDE,{Druckschwelle für Tankdruck eingeschwungen},1 $C997,$C997 /SPW,231,1, 0., 31.75 /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 963,/SPZ,PTEDOZ,{Druckschwelle für Überwachung oszillierender Drucksensor},1 $C983,$C983 /SPW,231,1, 0., 31.75 /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 964,/SPZ,QACB,{Luftvorsteuerung für Klimabereitschaft},1 $13227,$13227 /SPW,138,1, 0., 102. /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 965,/SPZ,QDBLLE,{Luftmengenschwelle für BEd. LL-Ersatzwert bei DK-Fehler},1 $F217,$F217 /SPW,135,1, 0., 408. /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 966,/SPZ,QDBLLEA,{Q-Luft-Schwelle Erkennung LL bei Automatic-Fz},1 $F21B,$F21B /SPW,138,1, 0., 102. /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 967,/SPZ,QDBLLEH,{Q-Luft-Schwelle Erkennung LL bei Handschalt-Fz},1 $F21C,$F21C /SPW,138,1, 0., 102. /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 968,/SPZ,QDPUELL,{Schwelle Dashpotluft für UELLTL aktiv},1 $131B3,$131B3 /SPW,138,1, 0., 102. /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 969,/SPZ,QFSM,{Luftmenge bei eingelegter Fahrstufe},4 $CB12,$CB12 /SPW,138,1, 0., 102. /SPX,169,1,-80., 176.,23 /SPY,0,0, 0., 0.,0 /FKX,17,4,0 /FKY,0,0,0 /ABL,0; 970,/SPZ,QFSMV,{Luftbedarf bei eingelegter Fahrstufe und Geschwindigkeit},4 $CB23,$CB23 /SPW,138,1, 0., 102. /SPX,169,1,-80., 176.,23 /SPY,0,0, 0., 0.,0 /FKX,17,4,0 /FKY,0,0,0 /ABL,0; 971,/SPZ,QKHLLN,{Luftvorsteuerung bei Kat-Heizen im Leerlauf},7 $C8CE,$D816 /SPW,138,1, 0., 102. /SPX,127,1, 0., 0.,919 /SPY,0,0, 0., 0.,0 /FKX,16,0,0 /FKY,0,0,0 /ABL,0; 972,/SPZ,QKOP,{Luftvorsteuerung bei Klimakomressor ein abh. von AC-Druck},4 $132D4,$132D4 /SPW,138,1, 0., 102. /SPX,2,1,-175.9825, 3289.52,53 /SPY,0,0, 0., 0.,0 /FKX,17,4,0 /FKY,0,0,0 /ABL,0; 973,/SPZ,QLF,{Zusatzluft bei eingeschaltetem Lüfter},1 $C936,$C936 /SPW,138,1, 0., 102. /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 974,/SPZ,QLLDK,{Air flow through throttle at idle},1 $F1A1,$F1A1 /SPW,138,1, 0., 102. /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 975,/SPZ,QLLHN,{Masse Leerlaufluft bei hoher Drehzahl (n>4800 U/min)},1 $C938,$C938 /SPW,138,1, 0., 102. /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 976,/SPZ,QLLSGR,{Luftmassenstromstützstellen über Bypasssteller},6 $13102,$133A8 /SPW,0,0, 0., 0. /SPX,138,1, 0., 102.,41 /SPY,0,0, 0., 0.,0 /FKX,16,0,0 /FKY,0,0,0 /ABL,2; 977,/SPZ,QLRHKPO,{upper air mass limit for P-component system behind Kat},1 $F0EE,$F0EE /SPW,106,1, 0., 408. /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 978,/SPZ,QMIN,{Minimale Solluft},1 $F1DB,$F1DB /SPW,138,1, 0., 102. /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 979,/SPZ,QSAHN,{Thrust air mass at high speed (n>4800 U/min)},1 $C937,$C937 /SPW,138,1, 0., 102. /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 980,/SPZ,QSTEDMX,{Maximale Solluft-Schwelle für Tank vent diagnosis},1 $C9A0,$C9A0 /SPW,113,1, 0., 102. /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 981,/SPZ,QSTN,{Luftmenge Vorsteuerung beim Start},4 $CAF0,$CAF0 /SPW,138,1, 0., 102. /SPX,124,1, 0., 7680.,12 /SPY,0,0, 0., 0.,0 /FKX,17,4,0 /FKY,0,0,0 /ABL,0; 982,/SPZ,REFINI,{Starting value at reference level-active knock control},1 $F224,$F224 /SPW,258,1, 0., 4980.469 /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 983,/SPZ,RHSOH,{upper threshold diagnosis sensor heater resistance before cat},1 $C913,$C913 /SPW,140,1, 0., 91.953 /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 984,/SPZ,RHSOV,{upper threshold diagnosis sensor heater resistance before cat},1 $C912,$C912 /SPW,140,1, 0., 91.953 /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 985,/SPZ,RHSUH,{lower threshold diagnosis sensor heater resistance before cat},1 $C915,$C915 /SPW,140,1, 0., 91.953 /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 986,/SPZ,RHSUV,{lower threshold diagnosis sensor heater resistance before cat},1 $C914,$C914 /SPW,140,1, 0., 91.953 /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 987,/SPZ,RMINN,{Minimaler Referenzpegel},7 $C8AA,$D456 /SPW,258,1, 0., 4980.469 /SPX,127,1, 0., 0.,919 /SPY,0,0, 0., 0.,0 /FKX,16,0,0 /FKY,0,0,0 /ABL,0; 988,/SPZ,SAFK1,{Filter constant 1 for oxygen sensor 1 signal output},1 $13206,$13206 /SPW,32,1,0.0119507, 3.047424 /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 989,/SPZ,SAFK2,{Filter constant 2 for oxygen sensor signal output},1 $13207,$13207 /SPW,284,1, 1., 255. /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 990,/SPZ,SCHWL2,{VL - Boundary to next to last load line},1 $C9B9,$C9B9 /SPW,274,1, 13.33333, 119.5833 /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 991,/SPZ,SESAZAD {Schwelle für Einschwingfilterwert Segmentabweichung bei Zahnscheiben-Adaption},1 $F254,$F254 /SPW,4,1, 0., 1.556396 /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 992,/SPZ,SFTEDA,{Beladungsschwelle für Verbot TE-Diagnose},1 $C998,$C998 /SPW,148,1,-64., 63.5 /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 993,/SPZ,SFZANSM,{Absteuerungsfaktorumschaltschwelle für Nachstartfaktor},7 $C86C,$CCA2 /SPW,60,1, 0., 0.996094 /SPX,168,1, 0., 0.,1202 /SPY,0,0, 0., 0.,0 /FKX,16,0,0 /FKY,0,0,0 /ABL,0; 994,/SPZ,SGIDB1,{BOSCH-Hardwarenummer},12 $F7BA,$F7BA /SPW,0,10, 0., 0. /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 995,/SPZ,SGIDB2,{BOSCH-Softwarenummer},12 $F7C4,$F7C4 /SPW,0,10, 0., 0. /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 996,/SPZ,SGIDB3,{Kunden-Teilenummer},12 $F7CE,$F7CE /SPW,0,10, 0., 0. /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 997,/SPZ,SGIDB4,{Fertigungsdatum},12 $F7D8,$F7D8 /SPW,0,3, 0., 0. /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 998,/SPZ,SLPE,{Secondary Air Pump ein},1 $C952,$C952 /SPW,9,1, 0., 255. /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 999,/SPZ,STADAPGR,{Startadaptionsfaktor XKSTAA als Source fuer GKLs},6 $F08D,$F7EC /SPW,0,0, 0., 0. /SPX,51,1, 0., 1.992188,40 /SPY,0,0, 0., 0.,0 /FKX,16,0,0 /FKY,0,0,0 /ABL,2; 1000,/SPZ,STELL02ACT,{Zeit für Stellglied 2 aktiv},1 $131CA,$131CA /SPW,213,1, 11.904, 3035.52 /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 1001,/SPZ,STELL02PAS,{Zeit für Stellglied 2 passiv},1 $131E2,$131E2 /SPW,213,1, 11.904, 3035.52 /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 1002,/SPZ,STELL03ACT,{Zeit für Stellglied 3 aktiv},1 $131CB,$131CB /SPW,213,1, 11.904, 3035.52 /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 1003,/SPZ,STELL03PAS,{Zeit für Stellglied 3 passiv},1 $131E3,$131E3 /SPW,213,1, 11.904, 3035.52 /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 1004,/SPZ,STELL04ACT,{Zeit für Stellglied 4 aktiv},1 $131CC,$131CC /SPW,213,1, 11.904, 3035.52 /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 1005,/SPZ,STELL04PAS,{Zeit für Stellglied 4 passiv},1 $131E4,$131E4 /SPW,213,1, 11.904, 3035.52 /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 1006,/SPZ,STELL05ACT,{Zeit für Stellglied 5 aktiv},1 $131CD,$131CD /SPW,213,1, 11.904, 3035.52 /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 1007,/SPZ,STELL05PAS,{Zeit für Stellglied 5 passiv},1 $131E5,$131E5 /SPW,213,1, 11.904, 3035.52 /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 1008,/SPZ,STELL06ACT,{Zeit für Stellglied 6 aktiv},1 $131CE,$131CE /SPW,213,1, 11.904, 3035.52 /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 1009,/SPZ,STELL06PAS,{Zeit für Stellglied 6 passiv},1 $131E6,$131E6 /SPW,213,1, 11.904, 3035.52 /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 1010,/SPZ,STELL08ACT,{Zeit für Stellglied 8 aktiv},1 $131CF,$131CF /SPW,214,1, 11.904, 11.904 /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 1011,/SPZ,STELL08PAS,{Zeit für Stellglied 8 passiv},1 $131E7,$131E7 /SPW,217,1, 107.136, 3035.52 /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 1012,/SPZ,STELL0EACT,{Zeit für Stellglied 14 aktiv},1 $131D0,$131D0 /SPW,213,1, 11.904, 3035.52 /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 1013,/SPZ,STELL0EPAS,{Zeit für Stellglied 14 passiv},1 $131E8,$131E8 /SPW,213,1, 11.904, 3035.52 /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 1014,/SPZ,STELL0FACT,{Zeit für Stellglied 15 aktiv},1 $131D1,$131D1 /SPW,213,1, 11.904, 3035.52 /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 1015,/SPZ,STELL0FPAS,{Zeit für Stellglied 15 passiv},1 $131E9,$131E9 /SPW,213,1, 11.904, 3035.52 /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 1016,/SPZ,STELL10ACT,{Zeit für Stellglied 16 aktiv},1 $131D2,$131D2 /SPW,216,1, 11.904, 23.808 /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 1017,/SPZ,STELL11ACT,{Zeit für Stellglied 17 aktiv},1 $131D3,$131D3 /SPW,214,1, 11.904, 11.904 /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 1018,/SPZ,STELL11PAS,{Zeit für Stellglied 17 passiv},1 $131EA,$131EA /SPW,215,1, 95.232, 3035.52 /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 1019,/SPZ,STELL12ACT,{Zeit für Stellglied 18 aktiv},1 $131D4,$131D4 /SPW,214,1, 11.904, 11.904 /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 1020,/SPZ,STELL12PAS,{Zeit für Stellglied 18 passiv},1 $131EB,$131EB /SPW,215,1, 95.232, 3035.52 /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 1021,/SPZ,STELL13ACT,{Zeit für Stellglied 19 aktiv},1 $131D5,$131D5 /SPW,213,1, 11.904, 3035.52 /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 1022,/SPZ,STELL13PAS,{Zeit für Stellglied 19 passiv},1 $131EC,$131EC /SPW,213,1, 11.904, 3035.52 /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 1023,/SPZ,STELL15ACT,{Zeit für Stellglied 21 aktive},1 $131D6,$131D6 /SPW,213,1, 11.904, 3035.52 /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 1024,/SPZ,STELL15PAS,{Zeit für Stellglied 21 passiv},1 $131ED,$131ED /SPW,213,1, 11.904, 3035.52 /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 1025,/SPZ,STELL16ACT,{Zeit für Stellglied 22 aktiv},1 $131D7,$131D7 /SPW,213,1, 11.904, 3035.52 /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 1026,/SPZ,STELL16PAS,{Zeit für Stellglied 22 passiv},1 $131EE,$131EE /SPW,213,1, 11.904, 3035.52 /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 1027,/SPZ,STELL17ACT,{Zeit für Stellglied 23 aktiv},1 $131D8,$131D8 /SPW,214,1, 11.904, 11.904 /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 1028,/SPZ,STELL17PAS,{Zeit für Stellglied 23 passiv},1 $131EF,$131EF /SPW,214,1, 11.904, 11.904 /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 1029,/SPZ,STELL18ACT,{Zeit für Stellglied 24 aktiv},1 $131D9,$131D9 /SPW,213,1, 11.904, 3035.52 /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 1030,/SPZ,STELL18PAS,{Zeit für Stellglied 24 passiv},1 $131F0,$131F0 /SPW,213,1, 11.904, 3035.52 /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 1031,/SPZ,STELL19ACT,{Zeit für Stellglied 25 aktiv},1 $131DA,$131DA /SPW,213,1, 11.904, 3035.52 /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 1032,/SPZ,STELL19PAS,{Zeit für Stellglied 25 passiv},1 $131F1,$131F1 /SPW,213,1, 11.904, 3035.52 /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 1033,/SPZ,STELL1AACT,{Zeit für Stellglied 26 aktiv},1 $131DB,$131DB /SPW,213,1, 11.904, 3035.52 /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 1034,/SPZ,STELL1APAS,{Zeit für Stellglied 26 passiv},1 $131F2,$131F2 /SPW,213,1, 11.904, 3035.52 /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 1035,/SPZ,STELL1BACT,{Zeit für Stellglied 27 aktiv},1 $131DC,$131DC /SPW,213,1, 11.904, 3035.52 /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 1036,/SPZ,STELL1BPAS,{Zeit für Stellglied 27 passiv},1 $131F3,$131F3 /SPW,213,1, 11.904, 3035.52 /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 1037,/SPZ,STELL1CACT,{Zeit für Stellglied 28 aktiv},1 $131DD,$131DD /SPW,213,1, 11.904, 3035.52 /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 1038,/SPZ,STELL1CPAS,{Zeit für Stellglied 28 passiv},1 $131F4,$131F4 /SPW,213,1, 11.904, 3035.52 /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 1039,/SPZ,STELL1DACT,{Zeit für Stellglied 29 aktiv},1 $131DE,$131DE /SPW,213,1, 11.904, 3035.52 /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 1040,/SPZ,STELL1DPAS,{Zeit für Stellglied 29 passiv},1 $131F5,$131F5 /SPW,213,1, 11.904, 3035.52 /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 1041,/SPZ,STELL1EACT,{Zeit für Stellglied 30 aktiv},1 $131DF,$131DF /SPW,213,1, 11.904, 3035.52 /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 1042,/SPZ,STELL1EPAS,{Zeit für Stellglied 30 passiv},1 $131F6,$131F6 /SPW,213,1, 11.904, 3035.52 /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 1043,/SPZ,STELL1FACT,{Zeit für Stellglied 31 aktiv},1 $131E0,$131E0 /SPW,213,1, 11.904, 3035.52 /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 1044,/SPZ,STELL1FPAS,{Zeit für Stellglied 31 passiv},1 $131F7,$131F7 /SPW,213,1, 11.904, 3035.52 /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 1045,/SPZ,STELL20ACT,{Zeit für Stellglied 32 aktiv},1 $131E1,$131E1 /SPW,216,1, 11.904, 23.808 /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 1046,/SPZ,STEUKKL,{Schwelle Summe Kurz-/Langzeitanteil},1 $13226,$13226 /SPW,27,1, 0., 6.12 /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 1047,/SPZ,STGEN,{Speed reference points for gear engagement},4 $CB56,$CB56 /SPW,120,1, 0., 7650. /SPX,126,1, 0., 7.,56 /SPY,0,0, 0., 0.,0 /FKX,8,0,0 /FKY,0,0,0 /ABL,0; 1048,/SPZ,STNLMR,{Speed ??reference points for LMR curves},6 $C84A,$CC8A /SPW,0,0, 0., 0. /SPX,120,1, 0., 7650.,10 /SPY,0,0, 0., 0.,0 /FKX,8,0,0 /FKY,0,0,0 /ABL,1; 1049,/SPZ,STSTNR,{Nummerierung von Festkennlinien (Dummy)},6 $C84C,$CC94 /SPW,0,0, 0., 0. /SPX,9,1, 0., 255.,6 /SPY,0,0, 0., 0.,0 /FKX,4,0,0 /FKY,0,0,0 /ABL,1; 1050,/SPZ,TA500G,{Festwert für Abgastemperatur (Sollwert 500°C)},1 $C91D,$C91D /SPW,162,1,-48., 972. /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 1051,/SPZ,TABGHSVO,{Abgas-Abschalttemperaturschwelle für Sondenheizung vor Kat},1 $C91F,$C91F /SPW,162,1,-48., 972. /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 1052,/SPZ,TABGLF,{Exhaust gas temperature threshold model for motor fan control},1 $C90F,$C90F /SPW,162,1,-48., 972. /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 1053,/SPZ,TADE,{Ersatzgröße Lufttemperatur im Fehlerfall},1 $C9DB,$C9DB /SPW,171,1,-55., 150. /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 1054,/SPZ,TADLDU,{TANS-threshold for locking error memory entry DLD},1 $13213,$13213 /SPW,171,1,-55., 150. /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 1055,/SPZ,TADLE,{Intake air temperature threshold diagnostic load sensing},1 $C9EB,$C9EB /SPW,168,1,-44., 150. /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 1056,/SPZ,TADMM,{1. Stufenbreite (Zeit) für Motortemperaturmodell},1 $C9C6,$C9C6 /SPW,220,1, 0., 255. /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 1057,/SPZ,TADMN,{Ansauglufttemperatur min.},1 $C9D9,$C9D9 /SPW,171,1,-55., 150. /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 1058,/SPZ,TADMX,{Ansauglufttemperatur max.},1 $C9DA,$C9DA /SPW,171,1,-55., 150. /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 1059,/SPZ,TADPL,{Zeitzähler für Plaus.check Tu-Fühler},1 $C9DF,$C9DF /SPW,251,1, 0., 24.28416 /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 1060,/SPZ,TADPLG,{Zeitzähler für Plaus.check Tu-Fühler},1 $C9E0,$C9E0 /SPW,251,1, 0., 24.28416 /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 1061,/SPZ,TADSLSU,{minimum intake air temperature for DSLS},1 $C958,$C958 /SPW,168,1,-44., 150. /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 1062,/SPZ,TADTEU,{Untere TANS-Schwelle für Tank vent diagnosis},1 $C99E,$C99E /SPW,171,1,-55., 150. /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 1063,/SPZ,TADTEVT,{Aufsteuertastverhältnis für TEV bei TE-Diagnose},4 $CB9A,$CB9A /SPW,79,1, 0., 1. /SPX,250,1, 0., 24.37939,43 /SPY,0,0, 0., 0.,0 /FKX,17,4,0 /FKY,0,0,0 /ABL,0; 1064,/SPZ,TALUST,{Duration of suppression Misfire detection after engine start},1 $F24D,$F24D /SPW,154,1, 0., 48.56832 /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 1065,/SPZ,TANFK,{Time offset for the insertion of Fkmlma},1 $F1D0,$F1D0 /SPW,212,1, 0., 3035.52 /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 1066,/SPZ,TANSGR,{Supporting points intake air temperature (16 Supporting points)},6 $C80E,$CBE7 /SPW,0,0, 0., 0. /SPX,171,1,-55., 150.,42 /SPY,0,0, 0., 0.,0 /FKX,16,0,0 /FKY,0,0,0 /ABL,2; 1067,/SPZ,TANSGR8S,{Supporting points intake air temperature (8 Supporting points)},6 $C810,$CBFA /SPW,0,0, 0., 0. /SPX,171,1,-55., 150.,42 /SPY,0,0, 0., 0.,0 /FKX,8,0,0 /FKY,0,0,0 /ABL,2; 1068,/SPZ,TANSLU {ansaugluft-temp. bei start zur deaktiviert der tmotst-abhängigen dase-ausblendg.},1 $1320A,$1320A /SPW,171,1,-55., 150. /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 1069,/SPZ,TASLV,{duty cycle Secondary Air Valve},1 $C951,$C951 /SPW,163,1, 0., 99.60938 /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 1070,/SPZ,TATEPO,{Duty cycle threshold for switchover period TEV in the upper range},1 $F10C,$F10C /SPW,163,1, 0., 99.60938 /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 1071,/SPZ,TATEPOO,{Duty cycle threshold for switchover period TEV in the top range} 1 $F10D,$F10D /SPW,163,1, 0., 99.60938 /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 1072,/SPZ,TATEPU,{Duty cycle threshold for switchover period TEV in the lower range},1 $F10A,$F10A /SPW,163,1, 0., 99.60938 /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 1073,/SPZ,TATEPUU,{Duty cycle threshold for switchover period TEV in the lower range} 1 $F10B,$F10B /SPW,163,1, 0., 99.60938 /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 1074,/SPZ,TATMML,{Stationary exhaust temperature dependent. the air flow},2 $C82E,$CCF2 /SPW,162,1,-48., 972. /SPX,106,1, 0., 408.,7 /SPY,0,0, 0., 0.,0 /FKX,4,0,0 /FKY,0,0,0 /ABL,1; 1075,/SPZ,TATMSA,{Exhaust gas temperature at boost cutting},1 $C921,$C921 /SPW,162,1,-48., 972. /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 1076,/SPZ,TATMTP,{exhaust gas dew point},1 $C922,$C922 /SPW,162,1,-48., 972. /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 1077,/SPZ,TBLFO,{E-box-top temperature threshold for E-box and engine fan control},1 $C90A,$C90A /SPW,196,1,-50., 150. /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 1078,/SPZ,TBLRH,{Blocking time for control behind catalytic converter after approval by regulation before cat},1 $F0ED,$F0ED /SPW,244,1, 0., 20.4 /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 1079,/SPZ,TDBDGR,{Bit duration for targeted stimulation},1 $F145,$F145 /SPW,192,1, 0., 3.03552 /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 1080,/SPZ,TDDF,{Debounce DF error detection},1 $C9D2,$C9D2 /SPW,161,1, 0., 24.28416 /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 1081,/SPZ,TDDFPL,{Time delay for plausibility DS},1 $C9CF,$C9CF /SPW,161,1, 0., 24.28416 /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 1082,/SPZ,TDDFPLG,{Time counter for Plaus.check DF},1 $C9D0,$C9D0 /SPW,161,1, 0., 24.28416 /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 1083,/SPZ,TDDLE,{Debounce time for error detection load sensing},1 $C9E7,$C9E7 /SPW,160,1, 0., 194.2733 /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 1084,/SPZ,TDDLER,{Debounce time for resetting error load sensing},1 $C9E8,$C9E8 /SPW,160,1, 0., 194.2733 /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 1085,/SPZ,TDDST,{Debounce time for error detection in the tank pressure sensor},1 $C9B3,$C9B3 /SPW,225,1, 0., 3.06 /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 1086,/SPZ,TDKS,{Zeit für Dia KS},1 $F226,$F226 /SPW,191,1, 0., 25.5 /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 1087,/SPZ,TDKSA,{Time for the knock evaluation},1 $F227,$F227 /SPW,191,1, 0., 25.5 /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 1088,/SPZ,TDLDMX,{Time for the maximum boost pressure},1 $13215,$13215 /SPW,143,1, 0., 18.21312 /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 1089,/SPZ,TDLDRA,{Time threshold for slide LDR - Deviation},1 $F184,$F184 /SPW,143,1, 0., 18.21312 /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 1090,/SPZ,TDMLWK {Debounce HFM (main load sensor) error detection for DK-dependent. Air mass threshold},1 $F18A,$F18A /SPW,192,1, 0., 3.03552 /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 1091,/SPZ,TDMM,{Step width (time) for motor temperature model},1 $C9C5,$C9C5 /SPW,220,1, 0., 255. /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 1092,/SPZ,TDNSTA,{exhaust pipe heating time from start, for TANS - Diagnosis},1 $C9DC,$C9DC /SPW,227,1, 0., 780.3 /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 1093,/SPZ,TDPAC,{Debounce min / max detection for troubleshooting AC pressure},1 $C97C,$C97C /SPW,212,1, 0., 3035.52 /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 1094,/SPZ,TDQDPN,{blocking time dashpot Terminating},7 $1312E,$138F8 /SPW,193,1, 0., 6047.232 /SPX,127,1, 0., 0.,919 /SPY,0,0, 0., 0.,0 /FKX,16,0,0 /FKY,0,0,0 /ABL,0; 1095,/SPZ,TDSLP1,{First test period for test pump at DSLS},1 $C960,$C960 /SPW,251,1, 0., 24.28416 /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 1096,/SPZ,TDSLP2,{Test period for second test pump at DSLS},1 $C961,$C961 /SPW,251,1, 0., 24.28416 /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 1097,/SPZ,TDSLS,{Test period with secondary air diagnosis},1 $C963,$C963 /SPW,251,1, 0., 24.28416 /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 1098,/SPZ,TDSLST,{Blocking time for tank vent},1 $C959,$C959 /SPW,251,1, 0., 24.28416 /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 1099,/SPZ,TDSLV1,{First test period for testing valve at DSLS},1 $C95E,$C95E /SPW,251,1, 0., 24.28416 /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 1100,/SPZ,TDSLV2,{Test period for second valve check in DSLS},1 $C95F,$C95F /SPW,251,1, 0., 24.28416 /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 1101,/SPZ,TDTA,{Entprellzeit Error Detection TANS},1 $C9DD,$C9DD /SPW,251,1, 0., 24.28416 /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 1102,/SPZ,TDTAL,{TANS Error Detection / Zeitsperre ab B_LL = 1},1 $C9DE,$C9DE /SPW,251,1, 0., 24.28416 /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 1103,/SPZ,TDTEAM,{max. Zeit für UD-Abbaugradientenmessung},1 $C999,$C999 /SPW,251,1, 0., 24.28416 /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 1104,/SPZ,TDTED,{Time-out-Zeit für Erkennung dichtes tank venting system},1 $C99A,$C99A /SPW,251,1, 0., 24.28416 /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 1105,/SPZ,TDTEGR,{maximale Zeit für gross leakerkennung bei TE-Diagnose},1 $C99B,$C99B /SPW,251,1, 0., 24.28416 /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 1106,/SPZ,TDTM,{Entprellzeit Error Detection TMOT},1 $F26E,$F26E /SPW,251,1, 0., 24.28416 /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 1107,/SPZ,TDTMNF,{Entprellzeit TMOT-Diagnose mit i.O.-Meldung},1 $F26F,$F26F /SPW,220,1, 0., 255. /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 1108,/SPZ,TDTONV,{Timeout zwischen 2 Bytes nach Verbindungsprotokoll},1 $F141,$F141 /SPW,192,1, 0., 3.03552 /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 1109,/SPZ,TDTOWV,{Timeout zwischen 2 Bytes während Verbindungsprotokoll},1 $F143,$F143 /SPW,165,1, 0., 30.3552 /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 1110,/SPZ,TDTOZB,{Timeout zwischen Blöcken},1 $F13F,$F13F /SPW,165,1, 0., 30.3552 /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 1111,/SPZ,TDUB,{Wartezeit für UBATT-Diagnose},1 $F148,$F148 /SPW,251,1, 0., 24.28416 /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 1112,/SPZ,TDUDNE,{Zeit für UB - Einbruch - Abfrage},1 $F147,$F147 /SPW,252,1,0.095232, 24.28416 /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 1113,/SPZ,TDV,{Speed signal error detection / time for query},1 $C9CC,$C9CC /SPW,251,1, 0., 24.28416 /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 1114,/SPZ,TDWFSVN,{Time delay before locking terminal 15 from Motronic in run},1 $F26D,$F26D /SPW,228,1, 0., 599.76 /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 1115,/SPZ,TDWNRZ,{Waiting time after stop bit is detected, the stimulus-word},1 $F139,$F139 /SPW,165,1, 0., 30.3552 /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 1116,/SPZ,TDWNSY,{Waiting period after the submission of the synchronization word},1 $F13B,$F13B /SPW,192,1, 0., 3.03552 /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 1117,/SPZ,TEC1N,{Delay time with compressor off},7 $C8FA,$EE6E /SPW,192,1, 0., 3.03552 /SPX,127,1, 0., 0.,919 /SPY,0,0, 0., 0.,0 /FKX,16,0,0 /FKY,0,0,0 /ABL,0; 1118,/SPZ,TECN,{Delay time for switching compressor},7 $C8F8,$EE5E /SPW,192,1, 0., 3.03552 /SPX,127,1, 0., 0.,919 /SPY,0,0, 0., 0.,0 /FKX,16,0,0 /FKY,0,0,0 /ABL,0; 1119,/SPZ,TEMIN,{minimales TE},1 $131B4,$131B4 /SPW,180,1, 0., 12.24 /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 1120,/SPZ,TESLS,{max. Number of verification tests of the SLS diagnosis per operating instance},1 $C967,$C967 /SPW,9,1, 0., 255. /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 1121,/SPZ,TFBR,{Unterbremsfreigabe},1 $131C2,$131C2 /SPW,182,1, 0., 6.07104 /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 1122,/SPZ,TFDSLS,{Blocking time after the start of the DSLS},1 $C957,$C957 /SPW,248,1, 9.18, 2340.9 /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 1123,/SPZ,TFRA,{Detection time for steady base adaptation of fra},1 $C973,$C973 /SPW,224,1, 0., 391.68 /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 1124,/SPZ,TFRAZ,{Dwell time at FRA for cycle flag for non eingeschw adaptation},1 $C975,$C975 /SPW,224,1, 0., 391.68 /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 1125,/SPZ,TFTEFVA,{Time from the beginning of TE for early phase limitation of purge},1 $F105,$F105 /SPW,229,1, 0., 783.36 /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 1126,/SPZ,TGAZA,{Zeit nach Start für Erzwingen einer Gemischadaptionsphase},1 $F107,$F107 /SPW,253,1, 0., 2295. /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 1127,/SPZ,TGEXN,{Maximum time for transmission intervention},4 $13340,$13340 /SPW,212,1, 0., 3035.52 /SPX,126,1, 0., 7.,56 /SPY,0,0, 0., 0.,0 /FKX,8,0,0 /FKY,0,0,0 /ABL,0; 1128,/SPZ,THHAUB,{Auszeit für Reduzierung der Heizleistung Sonde behind cat abhängig von UB} 2 $C836,$CD1A /SPW,192,1, 0., 3.03552 /SPX,259,1, 0., 17.53699,25 /SPY,0,0, 0., 0.,0 /FKX,4,0,0 /FKY,0,0,0 /ABL,1; 1129,/SPZ,THVAUB,{Out for power reduction on UB probe before cat},2 $C834,$CD10 /SPW,192,1, 0., 3.03552 /SPX,259,1, 0., 17.53699,25 /SPY,0,0, 0., 0.,0 /FKX,4,0,0 /FKY,0,0,0 /ABL,1; 1130,/SPZ,TIVERTEIL,{ti-Stützstellen},6 $13110,$13425 /SPW,0,0, 0., 0. /SPX,176,1, 0., 130.56,18 /SPY,0,0, 0., 0.,0 /FKX,16,0,0 /FKY,0,0,0 /ABL,2; 1131,/SPZ,TKATHSHO,{Abgas-Abschalttemperaturschwelle für Sondenheizung behind cat},1 $C920,$C920 /SPW,162,1,-48., 972. /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 1132,/SPZ,TKATMLRH,{Einschaltschwelle Kat-Modelltemperatur für Lambdaregelung behind cat} 1 $F0EB,$F0EB /SPW,162,1,-48., 972. /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 1133,/SPZ,TKATMTRP,{kat-threshold model temperature compensation trip for recognition},1 $F150,$F150 /SPW,162,1,-48., 972. /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 1134,/SPZ,TKOAVL,{Compressor OFF time with full load},1 $C94B,$C94B /SPW,251,1, 0., 24.28416 /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 1135,/SPZ,TKOAVLMN,{Minimum compressor off time at full load},1 $C94C,$C94C /SPW,251,1, 0., 24.28416 /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 1136,/SPZ,TKTPVK,{Abgastemperatur Kat (aus ATM) für TP-Überwachung Sonde vor Kat},1 $F1E6,$F1E6 /SPW,162,1,-48., 972. /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 1137,/SPZ,TKTVHK,{Kat-Modelltemperatur für Schwingungsprüfung SHK},1 $F1F4,$F1F4 /SPW,162,1,-48., 972. /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 1138,/SPZ,TLAED,{Wartezeit bis Fehlerlampe aus nach Start},1 $F14F,$F14F /SPW,159,1, 0., 127.5 /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 1139,/SPZ,TLDB,{Zeit für Ladedruckbegrenzung},1 $1320B,$1320B /SPW,251,1, 0., 24.28416 /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 1140,/SPZ,TLDBVE,{load threshold for VL-replacement value at DK error},1 $F219,$F219 /SPW,180,1, 0., 12.24 /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 1141,/SPZ,TLDRGEN,{Blocking time of the I component for transmission intervention},7 $13156,$142C8 /SPW,143,1, 0., 18.21312 /SPX,120,1, 0., 7650.,1048 /SPY,0,0, 0., 0.,0 /FKX,8,0,0 /FKY,0,0,0 /ABL,0; 1142,/SPZ,TLDRGEPN,{Blocking time of the P component for transmission intervention},7 $13158,$142D0 /SPW,143,1, 0., 18.21312 /SPX,120,1, 0., 7650.,1048 /SPY,0,0, 0., 0.,0 /FKX,8,0,0 /FKY,0,0,0 /ABL,0; 1143,/SPZ,TLDROVN,{Blocking time for overboost},7 $C860,$E936 /SPW,142,1, 0., 72.85248 /SPX,120,1, 0., 7650.,1048 /SPY,0,0, 0., 0.,0 /FKX,8,0,0 /FKY,0,0,0 /ABL,0; 1144,/SPZ,TLDV,{Error Detection Tachosignal / tL - Schwelle},1 $C9C9,$C9C9 /SPW,180,1, 0., 12.24 /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 1145,/SPZ,TLGR1,{Load support points Group 1},6 $F097,$F81D /SPW,0,0, 0., 0. /SPX,180,1, 0., 12.24,20 /SPY,0,0, 0., 0.,0 /FKX,16,0,0 /FKY,0,0,0 /ABL,2; 1146,/SPZ,TLGR2,{Load support points Group 2},6 $F099,$F830 /SPW,0,0, 0., 0. /SPX,180,1, 0., 12.24,20 /SPY,0,0, 0., 0.,0 /FKX,16,0,0 /FKY,0,0,0 /ABL,2; 1147,/SPZ,TLGR8S,{Load support points Group 8s},6 $F09B,$F843 /SPW,0,0, 0., 0. /SPX,180,1, 0., 12.24,20 /SPY,0,0, 0., 0.,0 /FKX,8,0,0 /FKY,0,0,0 /ABL,2; 1148,/SPZ,TLIM,{tL - Begrenzung LL - Integrator},4 $CA62,$CA62 /SPW,181,1, 0., 12.288 /SPX,169,1,-80., 176.,23 /SPY,0,0, 0., 0.,0 /FKX,17,4,0 /FKY,0,0,0 /ABL,0; 1149,/SPZ,TLIMLUN {Load threshold for Schuberkenng. For DRIVE = 0 for suppression of Misfire detection},7 $C828,$ED2E /SPW,180,1, 0., 12.24 /SPX,127,1, 0., 0.,919 /SPY,0,0, 0., 0.,0 /FKX,16,0,0 /FKY,0,0,0 /ABL,0; 1150,/SPZ,TLLLMX,{upper threshold for tl-ll-recognition in the running smoothness calculation},1 $F24A,$F24A /SPW,180,1, 0., 12.24 /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 1151,/SPZ,TLLRSHB,{Load threshold, LR off during overrun, in conjunction with LL and NLRSHB} 1 $F0F6,$F0F6 /SPW,180,1, 0., 12.24 /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 1152,/SPZ,TLMAX,{maximales TL},1 $C946,$C946 /SPW,180,1, 0., 12.24 /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 1153,/SPZ,TLO3,{upper tL - threshold region 3},1 $F213,$F213 /SPW,180,1, 1.008, 9.984 /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 1154,/SPZ,TLRAN,{Load threshold lambda control},2 $F0BF,$F9C0 /SPW,180,1, 1.488, 9.984 /SPX,120,1, 600., 6510.,10 /SPY,0,0, 0., 0.,0 /FKX,8,0,0 /FKY,0,0,0 /ABL,1; 1155,/SPZ,TLRHON,{Kennlinie über n, obere tL Regelgrenze für Regler behind cat},2 $F0AD,$FAC3 /SPW,180,1, 0., 12.24 /SPX,120,1, 0., 7650.,10 /SPY,0,0, 0., 0.,0 /FKX,4,0,0 /FKY,0,0,0 /ABL,1; 1156,/SPZ,TLRHUN,{Kennlinie über n, untere tL Regelgrenze für Regler behind cat},2 $F0AB,$FAB9 /SPW,180,1, 0., 12.24 /SPX,120,1, 0., 7650.,10 /SPY,0,0, 0., 0.,0 /FKX,4,0,0 /FKY,0,0,0 /ABL,1; 1157,/SPZ,TLRSA,{Sperrzeit für Einschalten LR nach SA},1 $F0F5,$F0F5 /SPW,192,1, 0., 3.03552 /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 1158,/SPZ,TLRSLS,{Lockout time after switching off Secondary Air System},1 $F0F4,$F0F4 /SPW,192,1, 0., 3.03552 /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 1159,/SPZ,TLS,{TL-Setpoint},1 $F1BF,$F1BF /SPW,180,1, 0., 12.24 /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 1160,/SPZ,TLSTM,{Start basic injection amount},7 $C8E8,$DD66 /SPW,180,1, 0., 12.24 /SPX,168,1, 0., 0.,1202 /SPY,0,0, 0., 0.,0 /FKX,16,0,0 /FKY,0,0,0 /ABL,0; 1161,/SPZ,TLTEDMX,{Maximale tl-Schwelle für Tank vent diagnosis},1 $C99F,$C99F /SPW,180,1, 0., 12.24 /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 1162,/SPZ,TLTPKTO,{upper load threshold for short-period test},1 $F1EE,$F1EE /SPW,180,1, 0., 12.24 /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 1163,/SPZ,TLTPKTU,{lower load threshold for short-period test},1 $F1ED,$F1ED /SPW,180,1, 0., 12.24 /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 1164,/SPZ,TLTPVKO,{upper threshold for load monitoring period duration before kat},1 $F1EC,$F1EC /SPW,180,1, 0., 12.24 /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 1165,/SPZ,TLTPVKU,{lower threshold for load monitoring period before cat},1 $F1EB,$F1EB /SPW,180,1, 0., 12.24 /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 1166,/SPZ,TLU2,{lower tL - threshold region 2},1 $F211,$F211 /SPW,180,1, 1.008, 9.984 /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 1167,/SPZ,TLU3,{untere tL - Schwelle Bereich 3},1 $F212,$F212 /SPW,180,1, 0.48, 9.984 /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 1168,/SPZ,TLUEACN,{tL-Schwelle bei AC-Kompressor ein für Zündwinkeleingriff im Übergang},7 $1311A,$13558 /SPW,180,1, 0., 12.24 /SPX,127,1, 0., 0.,919 /SPY,0,0, 0., 0.,0 /FKX,16,0,0 /FKY,0,0,0 /ABL,0; 1169,/SPZ,TLUEN,{tL threshold for ignition angle in the transition},7 $13118,$13548 /SPW,180,1, 0., 12.24 /SPX,127,1, 0., 0.,919 /SPY,0,0, 0., 0.,0 /FKX,16,0,0 /FKY,0,0,0 /ABL,0; 1170,/SPZ,TLULN,{overboost - tL},7 $1315C,$142E8 /SPW,180,1, 0., 12.192 /SPX,120,1, 0., 7650.,1048 /SPY,0,0, 0., 0.,0 /FKX,8,0,0 /FKY,0,0,0 /ABL,0; 1171,/SPZ,TLWARN,{TLW-threshold adaptation for active mixture},2 $C838,$CD24 /SPW,184,1, 0., 12.24 /SPX,120,1, 0., 7650.,10 /SPY,0,0, 0., 0.,0 /FKX,16,0,0 /FKY,0,0,0 /ABL,1; 1172,/SPZ,TLWNSP,{tlw-Schwelle für Nachspritzer},1 $13222,$13222 /SPW,184,1, 0., 12.24 /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 1173,/SPZ,TLZWB,{tL - Schwelle ZWB1 -> ZWB2},1 $F1BD,$F1BD /SPW,180,1, 0., 12.24 /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 1174,/SPZ,TMATMKV,{Motortemperaturschwelle, unterhalb verlaengerte Taupunktende-Zeit},1 $C928,$C928 /SPW,168,1,-44., 150. /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 1175,/SPZ,TMATMTP,{Motortemperaturschwelle, oberhalb Abschaltung Taupunktfunktion},1 $C927,$C927 /SPW,168,1,-44., 150. /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 1176,/SPZ,TMDLE,{Motor temperature diagnostics load detection threshold},1 $C9EA,$C9EA /SPW,168,1,-44., 150. /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 1177,/SPZ,TMDLL,{Tmot-Schwelle für HFM-Error Detection Leerlauf},1 $F190,$F190 /SPW,168,1,-44., 150. /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 1178,/SPZ,TMDMMA,{Anfangstemperatur für Motortemperaturmodell},1 $C9C1,$C9C1 /SPW,168,1,-44., 150. /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 1179,/SPZ,TMDMME,{Endtemperatur für Motortemperaturmodell},1 $C9C0,$C9C0 /SPW,168,1,-44., 150. /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 1180,/SPZ,TMDMMN,{Minimalwert für Ersatzwertübernahme aus Motortemperaturmodell},1 $C9C7,$C9C7 /SPW,168,1,-44., 150. /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 1181,/SPZ,TMDMN,{Motortemperatur min.},1 $C9BF,$C9BF /SPW,168,1,-44., 150. /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 1182,/SPZ,TMDMX,{Motortemperatur max.},1 $C9BE,$C9BE /SPW,168,1,-44., 150. /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 1183,/SPZ,TMDPAC,{TMOT threshold for plausibility check AC pressure sensor},1 $C978,$C978 /SPW,168,1,-44., 150. /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 1184,/SPZ,TMDTE,{Motortemperaturschwelle für Tank vent diagnosis},1 $C99C,$C99C /SPW,168,1,-44., 150. /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 1185,/SPZ,TMDTEU,{Untere Motortemperaturschwelle für Tank vent diagnosis},1 $C99D,$C99D /SPW,168,1,-44., 150. /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 1186,/SPZ,TMDV,{Motor temperature threshold for release Fz-speed diagnosis},1 $C9CB,$C9CB /SPW,168,1,-44., 150. /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 1187,/SPZ,TMDYVH,{TMOT lower threshold for dynamic load active},1 $13208,$13208 /SPW,168,1,-44., 150. /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 1188,/SPZ,TMFWLO,{Warmstarttemeraturschwelle 2},1 $ ,$C931 /SPW,168,1,-44., 150. /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 1189,/SPZ,TMFWLU,{Warmstarttemeraturschwelle 1},1 $C930,$C930 /SPW,168,1,-44., 150. /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 1190,/SPZ,TMINKAT,{Minimale Kat-Temperatur für Überwachung},1 $F11A,$F11A /SPW,162,1,-48., 972. /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 1191,/SPZ,TMK,{Motortemperatur - Schwelle kalt},1 $C92B,$C92B /SPW,168,1,-44., 150. /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 1192,/SPZ,TMKR,{Motor temperature threshold for active knock control},1 $F222,$F222 /SPW,168,1,-44., 150. /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 1193,/SPZ,TMKRA,{Motor temperature threshold for adaptive knock control},1 $F223,$F223 /SPW,168,1,-44., 150. /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 1194,/SPZ,TMKRVF,{TMOT- Switching threshold for ZW-early adjustment in KR},1 $F22C,$F22C /SPW,168,1,-44., 150. /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 1195,/SPZ,TMLD,{Motor temperature threshold for limiting the setpoint LDR},1 $C9B5,$C9B5 /SPW,168,1,-44., 150. /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 1196,/SPZ,TMLF1,{Motor threshold temperature 1 for motor fan control 102c},1 $C8FF,$C8FF /SPW,168,1,-44., 150. /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 1197,/SPZ,TMLF2,{Motor threshold temperature 2 for motor fan control 115c},1 $C903,$C903 /SPW,168,1,-44., 150. /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 1198,/SPZ,TMLF3,{Motor threshold temperature 3 for motor fan control 125c},1 $C909,$C909 /SPW,168,1,-44., 150. /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 1199,/SPZ,TMLF4,{Motor threshold temperature 4 for motor fan control 139c},1 $C904,$C904 /SPW,168,1,-44., 150. /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 1200,/SPZ,TMLF5,{Motor threshold temperature 5 for motor fan control},1 $C905,$C905 /SPW,168,1,-44., 150. /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 1201,/SPZ,TMLIM,{TMOT Schwelle für KSTAA aktiv im Nachstart},1 $C9BD,$C9BD /SPW,168,1,-44., 150. /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 1202,/SPZ,TMOTGR,{Motortemperaturstützstellen},6 $C808,$CBB6 /SPW,0,0, 0., 0. /SPX,168,1,-44., 150.,24 /SPY,0,0, 0., 0.,0 /FKX,16,0,0 /FKY,0,0,0 /ABL,2; 1203,/SPZ,TMOTGR2,{Motortemperaturstützstellen Gruppe 2},6 $F09F,$F882 /SPW,0,0, 0., 0. /SPX,168,1,-44., 150.,24 /SPY,0,0, 0., 0.,0 /FKX,16,0,0 /FKY,0,0,0 /ABL,2; 1204,/SPZ,TMOTGR8S,{Motortemperaturstützstellen Gruppe 8s},6 $F0A3,$F895 /SPW,0,0, 0., 0. /SPX,168,1,-44., 150.,24 /SPY,0,0, 0., 0.,0 /FKX,8,0,0 /FKY,0,0,0 /ABL,2; 1205,/SPZ,TMOTLUA,{Starttemperatur für Laufunruhe-Berechnung aktiv},7 $1314E,$14278 /SPW,168,1,-44., 150. /SPX,168,1, 0., 0.,1202 /SPY,0,0, 0., 0.,0 /FKX,16,0,0 /FKY,0,0,0 /ABL,0; 1206,/SPZ,TMQA,{TMOT für Luftvorsteuerung Adaption},1 $C93F,$C93F /SPW,168,1,-44., 150. /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 1207,/SPZ,TMRA1,{Ausschaltbedingung (S_LL = 0)},1 $F0F0,$F0F0 /SPW,168,1, 5., 20. /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 1208,/SPZ,TMRA2,{Ausschaltbedingung (S_LL = 1)},1 $F0F1,$F0F1 /SPW,168,1, 20., 50. /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 1209,/SPZ,TMRAA,{Switch-on LRA},1 $F1F8,$F1F8 /SPW,168,1, 0., 124. /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 1210,/SPZ,TMRZMN,{min. Zykluszeit für MIL-Request},1 $F266,$F266 /SPW,192,1, 0., 3.03552 /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 1211,/SPZ,TMRZMX,{max. cycle time for MIL-Request},1 $F265,$F265 /SPW,192,1, 0., 3.03552 /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 1212,/SPZ,TMSKHO,{obere Starttemperaturschwelle für Kat-Heizung},1 $F1AA,$F1AA /SPW,168,1,-44., 150. /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 1213,/SPZ,TMSKHU,{untere Starttemperaturschwelle für Kat-Heizung},1 $F1A9,$F1A9 /SPW,168,1,-44., 150. /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 1214,/SPZ,TMSLS,{Maximum temperature for the secondary air system},1 $C955,$C955 /SPW,168,1,-44., 150. /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 1215,/SPZ,TMSLSO,{upper temperature threshold for secondary air system},1 $C94F,$C94F /SPW,168,1,-44., 150. /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 1216,/SPZ,TMSLSU,{lower temperature threshold for secondary air system},1 $C94E,$C94E /SPW,168,1,-44., 150. /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 1217,/SPZ,TMSPV,{Motortemperaturschwelle für Messung Potential-Versatz},1 $F0D7,$F0D7 /SPW,168,1,-44., 150. /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 1218,/SPZ,TMSPVA {Motorabstelltemperaturschwelle für Messung Potentialversatz bei Sonde vor KAT},1 $F0D8,$F0D8 /SPW,168,1,-44., 150. /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 1219,/SPZ,TMSSLS,{Max start engine temperature for DSLS},1 $C956,$C956 /SPW,168,1,-44., 150. /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 1220,/SPZ,TMSTAB,{Motortemp.-Schwelle für STADAP-Freigabe bei Neustart},1 $F191,$F191 /SPW,168,1,-44., 150. /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 1221,/SPZ,TMSTZW,{Motor temperature threshold for ZW-switching in Start},1 $C9E6,$C9E6 /SPW,168,1,-44., 150. /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 1222,/SPZ,TMTE,{TMOT - Schwelle für Tankentlüftung},1 $F116,$F116 /SPW,168,1,-44., 150. /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 1223,/SPZ,TMWUC,{Motortemperaturschwelle für Erfüllung 'warm up cycle'},1 $F182,$F182 /SPW,168,1,-44., 150. /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 1224,/SPZ,TMWUCST,{max. Motortemperatur im Start für Erfüllung 'warm up cycle'},1 $F183,$F183 /SPW,168,1,-44., 150. /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 1225,/SPZ,TMZFK,{TMOT - Schwelle für Zeitkonstante beim Aufsteuern von Fkmlma},1 $F1D8,$F1D8 /SPW,168,1,-44., 150. /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 1226,/SPZ,TMZWE {Motortemperatur-Schwelle für Zündwinkelverstellung beim Wiedereinsetzen in Teill},1 $131B1,$131B1 /SPW,168,1,-44., 150. /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 1227,/SPZ,TNALU,{Test phase length on the misfire detection},1 $F241,$F241 /SPW,9,1, 0., 255. /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 1228,/SPZ,TNLF1,{Fan run-time for 1 motor fan control},1 $C906,$C906 /SPW,227,1, 0., 780.3 /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 1229,/SPZ,TNLF2,{Lüfternachlaufzeit 2 für Motorlüftersteuerung},1 $C907,$C907 /SPW,227,1, 0., 780.3 /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 1230,/SPZ,TNLF3,{Lüfternachlaufzeit 3 für Motorlüftersteuerung},1 $C908,$C908 /SPW,145,1, 0., 24.28416 /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 1231,/SPZ,TNMAX,{Zeit für n max - Überwachung},1 $F1D6,$F1D6 /SPW,198,1, 0., 3.03552 /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 1232,/SPZ,TNODTES,{Zeit nach Motorstart für Verbot DTES},1 $C9A1,$C9A1 /SPW,249,2, 1.047552, 1400.006 /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 1233,/SPZ,TNSTDN,{Zeit nach Start für Diagnose Fehler Nebenschluß (Monoflop)},1 $F0E0,$F0E0 /SPW,247,1, 0., 12.24 /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 1234,/SPZ,TNSUUK,{Zeit UK-Unterdrückung im Nachstart},1 $13225,$13225 /SPW,251,1, 0., 24.28416 /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 1235,/SPZ,TPLAUS1,{Debounce time for AC pressure plausibility check},1 $C97D,$C97D /SPW,251,1, 0., 24.28416 /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 1236,/SPZ,TPLAUS2,{Zeit für AC-Druck-plausibility check},1 $C97E,$C97E /SPW,251,1, 0., 24.28416 /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 1237,/SPZ,TPREL,{Debounce toothed in the initialization},1 $C8FD,$C8FD /SPW,175,1, 0., 48.96 /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 1238,/SPZ,TPSVKMN,{minimale Periodendauer der Lambdasonde vor Kat, DLSSA},1 $131FC,$131FC /SPW,237,1, 0., 10.2 /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 1239,/SPZ,TPSVKMX,{maximale Periodendauer der Lambdasonde vor Kat, DLSSA},1 $131FD,$131FD /SPW,237,1, 0., 10.2 /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 1240,/SPZ,TPTEE,{Meßzeit für Tankdruck eingeschwungen},1 $C9A3,$C9A3 /SPW,251,1, 0., 24.28416 /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 1241,/SPZ,TQAW,{Wartezeit für Luftvorsteuerung Adaption},1 $C940,$C940 /SPW,160,1, 0., 194.2733 /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 1242,/SPZ,TRAB,{Monitoring time for load threshold lambda control},1 $F0F9,$F0F9 /SPW,183,1, 0.35712, 14.99904 /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 1243,/SPZ,TRADN,{untere tra-Schwelle für Error Detection im Kraftstoffversorgungssystem},1 $C96D,$C96D /SPW,99,1,-512., 508. /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 1244,/SPZ,TRADX,{obere tra-Schwelle für Error Detection im Kraftversorgungssystem},1 $C96C,$C96C /SPW,99,1,-512., 508. /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 1245,/SPZ,TRAE,{Delta-tra-Schwelle für Erkennung der eingeschwungenen Grundadaption},1 $C971,$C971 /SPW,100,1, 0., 510. /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 1246,/SPZ,TRAMN,{lower limit of the mixture adaptation additive per time},1 $F202,$F202 /SPW,99,1,-512., 508. /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 1247,/SPZ,TRAMX,{upper limit of the mixture adaptation additive per time},1 $F201,$F201 /SPW,99,1,-512., 508. /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 1248,/SPZ,TRARN,{reduced lower limit of the correction factor tra},1 $F208,$F208 /SPW,99,1,-512., 508. /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 1249,/SPZ,TRARX,{reduced upper limit of the correction factor tra},1 $F207,$F207 /SPW,99,1,-512., 508. /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 1250,/SPZ,TRSA,{Überwachungszeit Regelung (vor KAT)-> Sonde Aus},1 $F0DB,$F0DB /SPW,234,1, 0., 48.96 /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 1251,/SPZ,TRSAH,{Überwachungszeit Regelung (behind cat)-> Sonde Aus},1 $F19E,$F19E /SPW,224,1, 0., 391.68 /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 1252,/SPZ,TRSE,{Überwachungszeit -> Regelung ein},1 $F0DA,$F0DA /SPW,247,1, 0., 12.24 /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 1253,/SPZ,TSAKAMN,{Mindestdauer SA für Funktion Katalysator-Ausräumen},1 $131C8,$131C8 /SPW,192,1, 0., 3.03552 /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 1254,/SPZ,TSFSVK,{Sperrzeit für die Periodendauerüberwachung für DLSA},1 $F1DE,$F1DE /SPW,192,1, 0., 3.03552 /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 1255,/SPZ,TSLDM,{Einschaltdauer für Secondary Air Pump},4 $CB34,$CB34 /SPW,227,1, 0., 780.3 /SPX,169,1,-80., 176.,46 /SPY,0,0, 0., 0.,0 /FKX,17,4,0 /FKY,0,0,0 /ABL,0; 1256,/SPZ,TSLEM,{Time to Secondary Air Pump after the start},4 $CB45,$CB45 /SPW,227,1, 0., 780.3 /SPX,169,1,-80., 176.,46 /SPY,0,0, 0., 0.,0 /FKX,17,4,0 /FKY,0,0,0 /ABL,0; 1257,/SPZ,TSTEAA,{Sperrzeit nach B_te (TEA aktiv)},1 $C947,$C947 /SPW,210,1, 0., 153. /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 1258,/SPZ,TSTHL,{Extension of time to start firing angle beyond the start},1 $F1BC,$F1BC /SPW,222,1, 23.808, 6071.04 /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 1259,/SPZ,TSVKKO,{schärfere obere Periodendauergrenze für Lambdasonde vor Kat},1 $F1E1,$F1E1 /SPW,199,1, 0., 6.07104 /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 1260,/SPZ,TSVKKTO,{obere Periodendauergrenze für SVK, Kurztest},1 $F1E3,$F1E3 /SPW,199,1, 0., 6.07104 /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 1261,/SPZ,TSVKKTU,{untere Periodendauergrenze für SVK, Kurztest},1 $F1E4,$F1E4 /SPW,199,1, 0., 6.07104 /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 1262,/SPZ,TSVKKU,{schärfere untere Periodendauergrenze für Lambdasonde vor Kat},1 $F1E2,$F1E2 /SPW,199,1, 0., 6.07104 /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 1263,/SPZ,TSVKO,{obere Periodendauergrenze für die Lambda-Sonde vor Katalysator},1 $F1DF,$F1DF /SPW,199,1, 0., 6.07104 /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 1264,/SPZ,TSVKU,{untere Periodengrenze für Lambda-Sonde vor Katalysator},1 $F1E0,$F1E0 /SPW,199,1, 0., 6.07104 /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 1265,/SPZ,TTBMH,{Zeit für theoretische Sondenbetriebsbereitschaft mit Heizung},1 $F0DD,$F0DD /SPW,224,1, 0., 391.68 /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 1266,/SPZ,TTE,{Zeit für Tankentlüftungsphase},1 $F0FF,$F0FF /SPW,229,1, 0., 783.36 /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 1267,/SPZ,TTEAE,{Zeit für Tankentlüftungsphase bei eingeschwungener Gemischadaption},1 $F100,$F100 /SPW,229,1, 0., 783.36 /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 1268,/SPZ,TTEAUS,{Zeit nach Start bis TEB aktiv wird},1 $F106,$F106 /SPW,229,1, 0., 783.36 /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 1269,/SPZ,TTEDFRR,{max. Zeit für Lambdareglerreset bei TEVzu},1 $C9A4,$C9A4 /SPW,251,1, 0., 24.28416 /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 1270,/SPZ,TTEDGK,{Meßzeit für Kompensationsgradient},1 $C9A5,$C9A5 /SPW,251,1, 0., 24.28416 /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 1271,/SPZ,TTEDOZ,{Mindestprüfdauer für Überwachung oszillierender Drucksensor},1 $C985,$C985 /SPW,251,1, 0., 24.28416 /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 1272,/SPZ,TTEDOZG,{Gesamtprüfdauer für Überwachung oszillierender Drucksensor},1 $C986,$C986 /SPW,251,1, 0., 24.28416 /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 1273,/SPZ,TTEDST,{Überwachungszeit Drucksensor},1 $C9A6,$C9A6 /SPW,251,1, 0., 24.28416 /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 1274,/SPZ,TTEDWD,{Wartezeit vor Messung Unterdruckabbau-Gradient},1 $C9A7,$C9A7 /SPW,251,1, 0., 24.28416 /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 1275,/SPZ,TTEDWK,{Wartezeit bei warmem Kraftstoff},1 $C9A8,$C9A8 /SPW,251,1, 0., 24.28416 /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 1276,/SPZ,TTEDWU,{Wartezeit bei Drucksensor am unteren Anschlag},1 $C9A9,$C9A9 /SPW,154,1, 0., 48.56832 /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 1277,/SPZ,TTEGA,{Zeit bei der Tankentlüftung für Grundadaption},1 $F101,$F101 /SPW,229,1, 0., 783.36 /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 1278,/SPZ,TTEGAINI,{Zeitdauer der ersten Gemischadaptionsphase},1 $F102,$F102 /SPW,229,1, 0., 783.36 /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 1279,/SPZ,TTEINI,{Zeit für Tankentlüftung in erster TE-Phase nach Initialisierung (B_ini)} 1 $F103,$F103 /SPW,229,1, 0., 783.36 /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 1280,/SPZ,TTEMN,{Zeit für Tankentlüftungsphase minimal},1 $F104,$F104 /SPW,229,1, 0., 783.36 /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 1281,/SPZ,TTEVUB,{Batteriespannungsabhängige Verzugszeit des TEV},7 $C81A,$CCE2 /SPW,233,1, 1.984, 8.160001 /SPX,259,1, 0., 0.,1339 /SPY,0,0, 0., 0.,0 /FKX,16,0,0 /FKY,0,0,0 /ABL,0; 1282,/SPZ,TTRA,{Erkennungszeit für eingeschwungene Grundadaption von tra},1 $C970,$C970 /SPW,224,1, 0., 391.68 /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 1283,/SPZ,TTRAZ,{Verweilzeit in TRA für Zyklusflag bei nicht eingeschw. Adaption},1 $C972,$C972 /SPW,224,1, 0., 391.68 /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 1284,/SPZ,TUEDTL,{Time to form the load difference signal},7 $1311C,$13568 /SPW,9,1, 0., 255. /SPX,127,1, 0., 0.,919 /SPY,0,0, 0., 0.,0 /FKX,16,0,0 /FKY,0,0,0 /ABL,0; 1285,/SPZ,TUELLTL,{Time threshold for triggering the transition function LL> TL},1 $131B2,$131B2 /SPW,251,1, 0., 24.28416 /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 1286,/SPZ,TULV,{Delay overboost cut-off},1 $13216,$13216 /SPW,143,1, 0., 18.21312 /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 1287,/SPZ,TUSDU {Verzög.zeit für Erkennung Adernschluß und Sonde mit begr. Spannungshub v.K.},1 $F0DC,$F0DC /SPW,224,1, 0., 391.68 /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 1288,/SPZ,TUSDUC,{Verzögerungszeit Code für Erkennung Wire circuit probe vor KAT},1 $F0E1,$F0E1 /SPW,224,1, 0., 391.68 /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 1289,/SPZ,TUSDUH,{Delay time for detecting oxygen sensor behind cat core circuit},1 $F0E2,$F0E2 /SPW,224,1, 0., 391.68 /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 1290,/SPZ,TUSKS,{Delay time for short circuit detection of the lambda probe},1 $F0D9,$F0D9 /SPW,247,1, 0., 9.984 /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 1291,/SPZ,TUSPNMN,{min. Zeit der Sondenspannung zwischen pos. und neg. Flanke},1 $131FF,$131FF /SPW,237,1, 0., 10.2 /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 1292,/SPZ,TUSPNMX,{max. Zeit der Sondenspannung zwischen pos. und neg. Flanke},1 $131FE,$131FE /SPW,237,1, 0., 10.2 /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 1293,/SPZ,TVAAV,{Verzögerungszeit für AAV-Ansteuerung bei TE-Diagnose},1 $C9AA,$C9AA /SPW,251,1, 0., 24.28416 /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 1294,/SPZ,TVBLDRN,{Duty cycle limit, change, for LDR (step height per scan time)} 7 $1315E,$142F0 /SPW,75,1, 0., 99.60938 /SPX,120,1, 0., 7650.,1048 /SPY,0,0, 0., 0.,0 /FKX,8,0,0 /FKY,0,0,0 /ABL,0; 1295,/SPZ,TVDHS,{Delay time for self-diagnosis Lambda probe heater},1 $C911,$C911 /SPW,224,1, 0., 391.68 /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 1296,/SPZ,TVLFA,{delay time to fan off},1 $C910,$C910 /SPW,227,1, 0., 780.3 /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 1297,/SPZ,TVLFAC,{Delay time for motor fan control for AC-readiness},1 $C90C,$C90C /SPW,145,1, 0., 24.28416 /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 1298,/SPZ,TVLRA,{Activation delay mixture adaptation of lambda control active} 1 $F1F9,$F1F9 /SPW,254,1, 0., 25.47456 /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 1299,/SPZ,TVLRHMN,{untere Grenze für tv-Korrektur},1 $F1EF,$F1EF /SPW,257,1,-1.523712, 1.511808 /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 1300,/SPZ,TVLRHMNK,{untere Grenze für tv-Korrektur bei aktivem Fehler E_dkat},1 $F1F0,$F1F0 /SPW,257,1,-1.523712, 1.511808 /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 1301,/SPZ,TVLRHMX,{obere Grenze für tv-Korrektur},1 $F1F1,$F1F1 /SPW,257,1,-1.523712, 1.511808 /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 1302,/SPZ,TVLRHMXK,{obere Grenze für tv-Korrektur bei aktivem Fehler E_dkat},1 $F1F2,$F1F2 /SPW,257,1,-1.523712, 1.511808 /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 1303,/SPZ,TVMAX,{Lim. Duty cycle (max) for LDR},1 $1320E,$1320E /SPW,75,1, 0., 99.60938 /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 1304,/SPZ,TVMIN,{Lim. Duty cycle (min.)},1 $1320D,$1320D /SPW,75,1, 0., 99.60938 /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 1305,/SPZ,TVREM,{Verzugszeit für Regelung ein},7 $F0A5,$F8A0 /SPW,220,1, 0., 255. /SPX,168,1, 0., 0.,1202 /SPY,0,0, 0., 0.,0 /FKX,16,0,0 /FKY,0,0,0 /ABL,0; 1306,/SPZ,TVSA0G,{Delay time for fuel cut off 0 Transition (LL)},4 $CAEA,$CAEA /SPW,212,1, 23.808, 3035.52 /SPX,9,1, 0., 5.,6 /SPY,0,0, 0., 0.,0 /FKX,6,0,0 /FKY,0,0,0 /ABL,0; 1307,/SPZ,TVSAD,{delay time for fuel cutoff switch gear drive},1 $F1C0,$F1C0 /SPW,212,1, 23.808, 3035.52 /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 1308,/SPZ,TVSTLDRN,{Duty cycle starting value for LDR change limiting},7 $13162,$14300 /SPW,75,1, 0., 99.60938 /SPX,120,1, 0., 7650.,1048 /SPY,0,0, 0., 0.,0 /FKX,8,0,0 /FKY,0,0,0 /ABL,0; 1309,/SPZ,TVUB,{voltage correction},7 $C818,$CCD2 /SPW,164,1, 0., 4.9725 /SPX,259,1, 0., 0.,1339 /SPY,0,0, 0., 0.,0 /FKX,16,0,0 /FKY,0,0,0 /ABL,0; 1310,/SPZ,TWBDCY,{waiting time for recognition condition 'driving cycle'},1 $C9D6,$C9D6 /SPW,161,1, 0., 24.28416 /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 1311,/SPZ,TWDDTV,{Wartezeit für Ready-Flag der Delta-TV Diagnose (DLSA)},1 $F1F3,$F1F3 /SPW,221,1, 0., 3133.44 /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 1312,/SPZ,TWDLSSA,{Mindestprüfzeit für DLSSA-Extremwertbestimmung},1 $C969,$C969 /SPW,224,1, 0., 391.68 /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 1313,/SPZ,TWDSLS,{Minimum time between two Prüfversuchen DSLS},1 $C966,$C966 /SPW,229,1, 0., 783.36 /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 1314,/SPZ,TWFISKAT,{Waiting time for filters stop after a start condition},1 $F119,$F119 /SPW,239,1,0.047616, 12.14208 /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 1315,/SPZ,TWFRDSLE,{Wartezeit nach Ende Sekundärluft-Diagnose},1 $C965,$C965 /SPW,251,1, 0., 24.28416 /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 1316,/SPZ,TWFRDSLS,{Waiting time for diagnosis of SLS on FR stop},1 $C964,$C964 /SPW,251,1, 0., 24.28416 /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 1317,/SPZ,TWFS1PU,{Zeit 1 für vorläufige Funktionsfreigabe ab Kl.15 ein (Power-up-Reset)} 1 $13217,$13217 /SPW,212,1, 0., 3035.52 /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 1318,/SPZ,TWFSSRX,{Max. Summenzeitintegral für Reset-Vorfreigaben bei Verriegelung},1 $1321B,$1321B /SPW,251,1, 0., 24.28416 /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 1319,/SPZ,TWFSVNN1,{Wartezeit 1 bei Motorstillstand bis Wiederverriegelung nach Freigabe} 1 $13218,$13218 /SPW,155,1, 0., 255. /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 1320,/SPZ,TWFSVNN2,{Wartezeit 2 bei Motorstillstand bis Wiederverriegelung nach Freigabe} 1 $13219,$13219 /SPW,155,1, 0., 255. /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 1321,/SPZ,TWH_SST,{Dummy-Stützstellenverteilung für XTWH als Source},6 $1310A,$133F4 /SPW,0,0, 0., 0. /SPX,227,1, 0., 780.3,47 /SPY,0,0, 0., 0.,0 /FKX,16,0,0 /FKY,0,0,0 /ABL,2; 1322,/SPZ,TWKS1,{Zeit 1 für Wiederholstart bei Kaltstart},1 $C92C,$C92C /SPW,227,1, 0., 780.3 /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 1323,/SPZ,TWKS2,{Zeit 2 für Wiederholstart bei Kaltstart},1 $C92D,$C92D /SPW,227,1, 0., 780.3 /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 1324,/SPZ,TWNS2,{Ende Wiederholnachstartzeit},1 $C92E,$C92E /SPW,227,1, 0., 780.3 /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 1325,/SPZ,TWNS3,{Ende Wiederholnachstartzeit bei n = 0},1 $C92F,$C92F /SPW,227,1, 0., 780.3 /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 1326,/SPZ,TWRDYKAT,{Überwachungszeit bis "Zyklus geprüft" Meldung erfolgt},1 $F120,$F120 /SPW,158,1, 5.713921, 1457.05 /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 1327,/SPZ,TWTRPDCY, {waiting time from detection B_dcy for replacement trip by definition},1 $F151,$F151 /SPW,153,1, 0., 2550. /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 1328,/SPZ,TWTRPLL,{Waiting time from B_ll recognition for substitute trip definition},1 $F152,$F152 /SPW,159,1, 0., 127.5 /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 1329,/SPZ,TWTRPST,{Wartezeit ab Start für Ersatztrip-Definition},1 $F153,$F153 /SPW,153,1, 0., 2550. /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 1330,/SPZ,TXD1S,{EBOX-Temperaturschwelle Error Detection 1},1 $F14D,$F14D /SPW,196,1,-50., 150. /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 1331,/SPZ,TXD2S,{EBOX-Temperaturschwelle Error Detection 2},1 $F14E,$F14E /SPW,196,1,-50., 150. /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 1332,/SPZ,TXDTFO,{EBOX-Temperaturplausibilitätsgrenze oben},1 $F14B,$F14B /SPW,196,1,-50., 150. /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 1333,/SPZ,TXDTFU,{EBOX-Temperaturplausibilitätsgrenze unten},1 $F14C,$F14C /SPW,196,1,-50., 150. /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 1334,/SPZ,UB13V,{Festwert für Batteriespannung (Sollwert 13V)},1 $C91C,$C91C /SPW,259,1, 0., 17.53699 /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 1335,/SPZ,UBDMN,{Batteriespannung min.},1 $F14A,$F14A /SPW,259,1, 0., 17.53699 /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 1336,/SPZ,UBDMX,{Batteriespannung max.},1 $F149,$F149 /SPW,259,1, 0., 17.53699 /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 1337,/SPZ,UBDPAC,{UB threshold for troubleshooting AC pressure sensor Max error},1 $C977,$C977 /SPW,259,1, 0., 17.53699 /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 1338,/SPZ,UBDPLS {Batteriespannungsschwelle zur Erkennung des Sondenfehlers KS-LS-Masse SG-Masse},1 $F0DE,$F0DE /SPW,259,1, 0., 17.53699 /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 1339,/SPZ,UBGR,{Batteriespannung Stützstellenverteilung},6 $C812,$CC05 /SPW,0,0, 0., 0. /SPX,259,1, 0., 17.53699,26 /SPY,0,0, 0., 0.,0 /FKX,16,0,0 /FKY,0,0,0 /ABL,2; 1340,/SPZ,UBHS,{Battery voltage shutdown threshold for the probe heater},1 $C91E,$C91E /SPW,259,1, 0., 17.53699 /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 1341,/SPZ,UBKST,{Ubat-Schwelle für ZUBKSTMX},1 $F194,$F194 /SPW,259,1, 0., 17.53699 /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 1342,/SPZ,UBTEDU,{untere UB-Schwelle für Tank vent diagnosis},1 $C9AB,$C9AB /SPW,259,1, 0., 17.53699 /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 1343,/SPZ,UDKS,{Min. Referenzpegel für Error Detection bei Verst. = VDKS},1 $F22B,$F22B /SPW,258,1, 0., 4980.469 /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 1344,/SPZ,USDBO {upper threshold f Erk. Wire circuit and defective probe with limited voltage swing},1 $F0E3,$F0E3 /SPW,269,1,-0.177225, 1.072775 /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 1345,/SPZ,USDBU {untere Schwelle f. Erk. Adernschluß u. defekte Sonde mit begrenztem Spannungshub},1 $F0E4,$F0E4 /SPW,269,1,-0.177225, 1.072775 /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 1346,/SPZ,USDUO,{obere Schwelle für Erkennung Adernschluß},1 $F0D3,$F0D3 /SPW,269,1,-0.177225, 1.072775 /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 1347,/SPZ,USDUU,{untere Schwelle für Erkennung Adernschluß},1 $F0D4,$F0D4 /SPW,269,1,-0.177225, 1.072775 /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 1348,/SPZ,USFHK,{Probe voltage detection threshold for rich cat behind},1 $F0DF,$F0DF /SPW,269,1,-0.177225, 1.072775 /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 1349,/SPZ,USHKAMX,{Sondenspannung behind cat für Abbruch Kat-Ausräumen},1 $131C9,$131C9 /SPW,269,1,-0.177225, 1.072775 /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 1350,/SPZ,USMAX,{Schwelle für Sondenkurzschluß nach Ubat},1 $F0CE,$F0CE /SPW,269,1,-0.177225, 1.072775 /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 1351,/SPZ,USMIN,{Schwelle für Sondenkurzschluß nach Masse},1 $F0D2,$F0D2 /SPW,269,1,-0.177225, 1.072775 /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 1352,/SPZ,USMNSAMN,{min. erkannte Sondenspannung für Signalausgabe (min. plaus. Wert)},1 $13202,$13202 /SPW,268,1, 0., 1.25 /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 1353,/SPZ,USMNSAMX,{min. erkannte Sondenspannung für Signalausgabe (max. plaus. Wert)},1 $13201,$13201 /SPW,268,1, 0., 1.25 /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 1354,/SPZ,USMXSAMN,{max. erkannte Sondenspannung für Signalausgabe (min. plaus. Wert)},1 $13200,$13200 /SPW,268,1, 0., 1.25 /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 1355,/SPZ,USMXSAMX,{max. erkannte Sondenspannung für Signalausgabe (max. plaus. Wert)},1 $13203,$13203 /SPW,268,1, 0., 1.25 /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 1356,/SPZ,USNO,{Obere Sondenspannungsschwelle für Erkennung hochohmiger Nebenschluß},1 $F0E5,$F0E5 /SPW,269,1,-0.177225, 1.072775 /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 1357,/SPZ,USNU,{Untere Sondenspannungsschwelle für Erkennung hochohmiger Nebenschluß},1 $F0E6,$F0E6 /SPW,269,1,-0.177225, 1.072775 /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 1358,/SPZ,USPVO,{obere Schwelle für Erkennung Potentialversatz},1 $F0D5,$F0D5 /SPW,270,1,-0.7089, 0.5411 /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 1359,/SPZ,USPVR,{Schwelle für Rücksetzen des Fehlers 'Potentialversatz' bei Sonde vor Kat.} 1 $F0CF,$F0CF /SPW,269,1,-0.177225, 1.072775 /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 1360,/SPZ,USPVU,{untere Schwelle für Erkennung Potentialversatz},1 $F0D6,$F0D6 /SPW,270,1,-0.7089, 0.5411 /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 1361,/SPZ,USR,{Regelschwelle für Regelung vor Kat},1 $F0F8,$F0F8 /SPW,269,1, 0.298265, 0.705128 /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 1362,/SPZ,USREF,{Probe threshold for operational readiness in a rich mixture (before CAT)},1 $F0D0,$F0D0 /SPW,269,1,-0.177225, 1.072775 /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 1363,/SPZ,USREFH,{Threshold for probe readiness behind cat with a rich mixture},1 $F19C,$F19C /SPW,269,1,-0.177225, 1.072775 /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 1364,/SPZ,USREM,{Schwelle für Sondenbetriebsbereitschaft bei magerem Gemisch (vor KAT)},1 $F0D1,$F0D1 /SPW,269,1,-0.177225, 1.072775 /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 1365,/SPZ,USREMH,{Schwelle für Sondenbetriebsbereitschaft behind cat bei magerem Gemisch} 1 $F19D,$F19D /SPW,269,1,-0.177225, 1.072775 /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 1366,/SPZ,USSAF,{Sondensignalschwelle für Signalausgabe, fett},1 $13205,$13205 /SPW,268,1, 0., 1.25 /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 1367,/SPZ,USSAM,{Sondensignalschwelle für Signalausgabe, mager},1 $13204,$13204 /SPW,268,1, 0., 1.25 /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 1368,/SPZ,USTE,{Sondenspannungsschwelle für Aufsteuerrampe},1 $F117,$F117 /SPW,269,1,-0.177225, 1.072775 /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 1369,/SPZ,UWEH,{Revolutions reinserting für ZWB5 hart},1 $F1C9,$F1C9 /SPW,9,1, 0., 255. /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 1370,/SPZ,UWEW,{Revolutions reinserting für ZWB4 weich},1 $F1CA,$F1CA /SPW,9,1, 0., 255. /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 1371,/SPZ,VDKS,{amplification from which knock sensor errors are recognized},1 $F22A,$F22A /SPW,9,1, 0., 255. /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 1372,/SPZ,VDMN,{Geschwindigkeitsschwelle; Error Detection Geschwindigkeitssignal},1 $C9CA,$C9CA /SPW,150,1, 0., 255. /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 1373,/SPZ,VLF1,{Threshold 1 for motor speed fan control},1 $C900,$C900 /SPW,97,1, 0., 255. /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 1374,/SPZ,VLF2,{Threshold 2 for motor speed fan control},1 $C901,$C901 /SPW,97,1, 0., 255. /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 1375,/SPZ,VLF4,{Fahrgeschwindigkeitsschwelle 4 für Motorlüftersteuerung},1 $C902,$C902 /SPW,97,1, 0., 255. /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 1376,/SPZ,VMAX,{Speed threshold for fuel cut-off},1 $C934,$C934 /SPW,150,1, 0., 255. /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 1377,/SPZ,VMAXW,{weiche Geschwindigkeitsbegrenzung},1 $C933,$C933 /SPW,150,1, 0., 255. /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 1378,/SPZ,VSKENN,{VS20-Kennung},12 $132C8,$132C8 /SPW,0,12, 0., 0. /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 1379,/SPZ,VSLS,{Vehicle speed threshold for the SLS},1 $C950,$C950 /SPW,150,1, 0., 255. /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 1380,/SPZ,VSTALL,{V-threshold for boost pressure reduction in signal transmission},1 $C9B6,$C9B6 /SPW,150,1, 0., 255. /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 1381,/SPZ,VWFSMX,{Max. Fahrzeuggeschwindigkeit für Aktivierung immobilizer (nach reset)} 1 $1321A,$1321A /SPW,150,1, 0., 256. /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 1382,/SPZ,VWWEMN,{minimum speed for reinserting ignition},1 $131AF,$131AF /SPW,150,1, 0., 256. /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 1383,/SPZ,VWWEMX,{maximum speed for reinserting ignition},1 $131B0,$131B0 /SPW,150,1, 0., 256. /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 1384,/SPZ,VZTLF,{Speed threshold for tL filter},1 $F1D1,$F1D1 /SPW,97,1, 0., 255. /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 1385,/SPZ,WDKBLGR,{Throttle angle reference points},6 $F09D,$F7FF /SPW,0,0, 0., 0. /SPX,272,1, 0., 95.83334,48 /SPY,0,0, 0., 0.,0 /FKX,16,0,0 /FKY,0,0,0 /ABL,2; 1386,/SPZ,WDKBLGR8S,{Throttle angle supporting position group 8s},6 $F0A1,$F812 /SPW,0,0, 0., 0. /SPX,272,1, 0., 95.83334,48 /SPY,0,0, 0., 0.,0 /FKX,8,0,0 /FKY,0,0,0 /ABL,2; 1387,/SPZ,WDKDE,{throttle angle; diagnosis - replacement value},1 $F216,$F216 /SPW,275,1,0.0833331, 95.91667 /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 1388,/SPZ,WDKDO,{Throttle angle above diagnosis},1 $F214,$F214 /SPW,9,1, 0., 255. /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 1389,/SPZ,WDKDU,{Throttle angle below diagnosis},1 $F215,$F215 /SPW,9,1, 0., 255. /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 1390,/SPZ,WDKGR_LMR,{WDK support points for LMR-maps},6 $C83C,$CC77 /SPW,0,0, 0., 0. /SPX,274,1, 13.33333, 119.5833,50 /SPY,0,0, 0., 0.,0 /FKX,16,0,0 /FKY,0,0,0 /ABL,2; 1391,/SPZ,WDKHWE,{DK-Winkel-Schwelle für hartes/weiches WE},1 $F1CB,$F1CB /SPW,272,1, 0., 95.83334 /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 1392,/SPZ,WDKLDRN,{Throttle angle threshold for LDR active},7 $C84E,$E7F6 /SPW,272,1, 0., 95.83334 /SPX,120,1, 0., 7650.,1048 /SPY,0,0, 0., 0.,0 /FKX,8,0,0 /FKY,0,0,0 /ABL,0; 1393,/SPZ,WDKSLN,{Throttle angle threshold for idle detection},7 $13136,$13B18 /SPW,272,1, 0., 95.83334 /SPX,127,1, 0., 0.,919 /SPY,0,0, 0., 0.,0 /FKX,16,0,0 /FKY,0,0,0 /ABL,0; 1394,/SPZ,WDKVGGR,{virtueller Drosselklappenwinkel Stützstellenverteilung},6 $13104,$133BB /SPW,0,0, 0., 0. /SPX,272,1, 0., 95.83334,51 /SPY,0,0, 0., 0.,0 /FKX,16,0,0 /FKY,0,0,0 /ABL,2; 1395,/SPZ,WDKVLN,{throttle angle threshold for full load identifcation},7 $13138,$13B28 /SPW,272,1, 0., 95.83334 /SPX,127,1, 0., 0.,919 /SPY,0,0, 0., 0.,0 /FKX,16,0,0 /FKY,0,0,0 /ABL,0; 1396,/SPZ,WDKWWEA,{maximaler DK-Winkel für UE-Funktion},1 $131AA,$131AA /SPW,272,1, 0., 95.83334 /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 1397,/SPZ,WFSID1,{WFS Identifier Service 1},1 $131A6,$131A6 /SPW,9,1, 0., 255. /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 1398,/SPZ,WFSID2,{WFS Identifier Service 2},1 $131A7,$131A7 /SPW,9,1, 0., 255. /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 1399,/SPZ,WFSID3,{WFS Identifier Service 3},1 $131A8,$131A8 /SPW,9,1, 0., 255. /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 1400,/SPZ,WKLLX,{Leerlaufwinkel, maximal zulässiger Wert},1 $F21E,$F21E /SPW,275,1,0.0833331, 95.91667 /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 1401,/SPZ,WKWAN,{obere Grenze Drosselklappenwinkel für tlw-Adaption},7 $C8CA,$D7F6 /SPW,272,1, 0., 95.83334 /SPX,127,1, 0., 0.,919 /SPY,0,0, 0., 0.,0 /FKX,16,0,0 /FKY,0,0,0 /ABL,0; 1402,/SPZ,WKWAUN,{untere Grenze Drosselklappenwinkel für tlw-Adaption},7 $C8CC,$D806 /SPW,272,1, 0., 95.83334 /SPX,127,1, 0., 0.,919 /SPY,0,0, 0., 0.,0 /FKX,16,0,0 /FKY,0,0,0 /ABL,0; 1403,/SPZ,WLLM,{Idle / boost - ignition},7 $C8BE,$D5B6 /SPW,289,1,-22.5, 75. /SPX,168,1, 0., 0.,1202 /SPY,0,0, 0., 0.,0 /FKX,16,0,0 /FKY,0,0,0 /ABL,0; 1404,/SPZ,WMAX,{earliest angle},1 $F1AD,$F1AD /SPW,293,1,-24.75, 78. /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 1405,/SPZ,WMIN,{Latest ignition},1 $F1AC,$F1AC /SPW,293,1,-24.75, 78. /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 1406,/SPZ,WNDN,{Angle for negative deviation},4 $13293,$13293 /SPW,289,1,-22.5, 75. /SPX,121,1, 0., 200.,13 /SPY,0,0, 0., 0.,0 /FKX,21,0,0 /FKY,0,0,0 /ABL,0; 1407,/SPZ,WPDN,{Angle for positive deviation},4 $1327E,$1327E /SPW,289,1,-22.5, 75. /SPX,121,1, 0., 200.,13 /SPY,0,0, 0., 0.,0 /FKX,21,0,0 /FKY,0,0,0 /ABL,0; 1408,/SPZ,WSTN,{Start firing angle},4 $CB67,$CB67 /SPW,289,1,-22.5, 75. /SPX,123,1, 0., 2560.,11 /SPY,0,0, 0., 0.,0 /FKX,17,4,0 /FKY,0,0,0 /ABL,0; 1409,/SPZ,ZATMAML,{Zeitkonstante fuer Abgastemperaturmodell},2 $C830,$CCFC /SPW,40,1, 1.542024, 393.216 /SPX,106,1, 0., 408.,7 /SPY,0,0, 0., 0.,0 /FKX,4,0,0 /FKY,0,0,0 /ABL,1; 1410,/SPZ,ZATMKML,{Zeitkonstante fuer Katalysatortemperaturmodell - Kat-Temperatur},2 $C832,$CD06 /SPW,42,1, 6.168094, 1572.864 /SPX,106,1, 0., 408.,7 /SPY,0,0, 0., 0.,0 /FKX,4,0,0 /FKY,0,0,0 /ABL,1; 1411,/SPZ,ZAVKAT {Zeitkonstante für langsames Amplitudenfilter (für Lambda-Führungsregelung)},1 $F124,$F124 /SPW,40,1, 1.542024, 393.216 /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 1412,/SPZ,ZBALM,{Abregelfaktor L-Speicher (tmot) BA},7 $C880,$CF46 /SPW,58,1, 0., 0.124512 /SPX,168,1, 0., 0.,1202 /SPY,0,0, 0., 0.,0 /FKX,16,0,0 /FKY,0,0,0 /ABL,0; 1413,/SPZ,ZBURNABR,{Combustion number for adaptation decision abort},1 $F192,$F192 /SPW,9,1, 0., 255. /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 1414,/SPZ,ZBURNDEC,{To border combustion number for "leaning"},1 $F199,$F199 /SPW,9,1, 0., 255. /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 1415,/SPZ,ZBURNSOL,{Required combustion number for "no enrichment"},1 $F198,$F198 /SPW,9,1, 0., 255. /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 1416,/SPZ,ZDGGR8S,{Stützstellenverteilung Zündungen},6 $C806,$CBAB /SPW,0,0, 0., 0. /SPX,281,1, 0., 20400.,29 /SPY,0,0, 0., 0.,0 /FKX,8,0,0 /FKY,0,0,0 /ABL,2; 1417,/SPZ,ZDGGRSP1,{Dummy-Stützstellenverteilung für XZDCTRABS als Source},6 $13106,$133CE /SPW,0,0, 0., 0. /SPX,280,1, 0., 10200.,52 /SPY,0,0, 0., 0.,0 /FKX,16,0,0 /FKY,0,0,0 /ABL,2; 1418,/SPZ,ZDGVERTEIL,{Ignition supporting points},6 $C814,$CC2B /SPW,0,0, 0., 0. /SPX,10,1, 0., 256.,58 /SPY,0,0, 0., 0.,0 /FKX,16,0,0 /FKY,0,0,0 /ABL,2; 1419,/SPZ,ZDKHA,{Zeitkonstante für Höhenadaption},1 $F1A7,$F1A7 /SPW,285,1, 0.,0.028305 /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 1420,/SPZ,ZDKHAS,{Zeitkonstante für schnelle Höhenadaption},1 $F1A8,$F1A8 /SPW,285,1, 0.,0.028305 /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 1421,/SPZ,ZDPTE,{Zeitkonstante für Tankdrucksensorsignalfilter},1 $C9AC,$C9AC /SPW,31,1,0.0963765, 24.576 /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 1422,/SPZ,ZDPTES,{Zeitkonstante für Tankdrucksignal bei Schwapperkennung},1 $C9AD,$C9AD /SPW,31,1,0.0963765, 24.576 /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 1423,/SPZ,ZDPTESK,{Zeitkonst. bei Schwapperkennung des Kompensationsgradienten},1 $C9AE,$C9AE /SPW,31,1,0.0963765, 24.576 /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 1424,/SPZ,ZDQDP,{Zeitkonstante für Dashpotabsteuerung},1 $131B5,$131B5 /SPW,222,1, 23.808, 6071.04 /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 1425,/SPZ,ZDTEAB,{Absteuerzeitkonstante für TEV bei TE-Diagnose},1 $C9AF,$C9AF /SPW,130,1, 4.084968, 104.1667 /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 1426,/SPZ,ZFKML {Zeitkonstante zum Aufsteuern des Korrekturfaktors Fkmlma bei Wiederholstart},1 $F1D7,$F1D7 /SPW,36,1, 0.382422, 97.51757 /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 1427,/SPZ,ZFKMLK,{Zeitkonstante zum Absteuern des Korrekturfaktors Fkmlma},2 $F0C7,$FAA7 /SPW,36,1, 0.382422, 97.51757 /SPX,54,1, 1., 1.996094,4 /SPY,0,0, 0., 0.,0 /FKX,3,0,0 /FKY,0,0,0 /ABL,1; 1428,/SPZ,ZFKMLM,{Zeitkonstante zum Aufsteuern des Korrekturfaktors Fkmlma},2 $F0C5,$FA9D /SPW,36,1, 0.382422, 97.51757 /SPX,168,1,-44., 150.,22 /SPY,0,0, 0., 0.,0 /FKX,4,0,0 /FKY,0,0,0 /ABL,1; 1429,/SPZ,ZFTEADML,{Zeitkonstante (bzw.Integrationsgeschw.) für Beladungsfaktor},4 $CA95,$CA95 /SPW,209,1, 0., 3.1875 /SPX,107,1, 0., 409.6,9 /SPY,0,0, 0., 0.,0 /FKX,17,4,0 /FKY,0,0,0 /ABL,0; 1430,/SPZ,ZFTSVK,{Zeitkonstante für Filter Periodendauer der Sonde vor Katalysator},1 $F1E5,$F1E5 /SPW,284,1, 1., 255. /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 1431,/SPZ,ZHZTABG,{Aufheizkonstante für Sondenheizung über Abgas},1 $C919,$C919 /SPW,42,1, 6.168094, 1572.864 /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 1432,/SPZ,ZHZUBF,{Zeitkonstante für Batteriespannungsfilter (Sollwert 5s)},1 $C918,$C918 /SPW,40,1, 1.542024, 393.216 /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 1433,/SPZ,ZIRS1,{Zeitkonstante für Integratorreset n > NSOL},1 $131BC,$131BC /SPW,9,1, 0., 255. /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 1434,/SPZ,ZIRS2,{Zeitkonstante für Integratorreset n < NSOL},1 $131BD,$131BD /SPW,9,1, 0., 255. /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 1435,/SPZ,ZKDTV,{Zeitkonstante für dtv-Integrator},1 $F1FD,$F1FD /SPW,9,1, 0., 255. /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 1436,/SPZ,ZKFRA,{Zeitkonstante für Fra-Integrator},1 $F1FB,$F1FB /SPW,9,1, 1., 254. /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 1437,/SPZ,ZKFRM,{Zeitkonstante für Fr-Filter},1 $F1FA,$F1FA /SPW,9,1, 1., 254. /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 1438,/SPZ,ZKTRA,{Zeitkonstante für tra-Integrator},1 $F1FC,$F1FC /SPW,9,1, 1., 254. /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 1439,/SPZ,ZLAAF,{Zeitkonstante für Lambda-Amplitudenfilter},1 $F11D,$F11D /SPW,35,1,0.0478027, 12.1897 /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 1440,/SPZ,ZLAF,{Zeitkonstante für Hochpaß-Filter Lambdasondensignal},1 $F11C,$F11C /SPW,35,1,0.0478027, 12.1897 /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 1441,/SPZ,ZLLRAZ,{Adaptionszyklenzähler zum setzten des Zyklus-Flag Z_baa},1 $C945,$C945 /SPW,9,1, 0., 255. /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 1442,/SPZ,ZLRHML {Luftmassendurchsatz abhängige Zeitkonstante für Lambdaregler behind catalysator},2 $F0B5,$FAF7 /SPW,288,1,0.0610352, 15.56396 /SPX,106,1, 0., 408.,7 /SPY,0,0, 0., 0.,0 /FKX,5,0,0 /FKY,0,0,0 /ABL,1; 1443,/SPZ,ZMFBAB,{Anzahl Abtastungen für Funktionsprüfung MIL-Request-Leitung},1 $F26A,$F26A /SPW,9,1, 0., 255. /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 1444,/SPZ,ZMFBK,{Anzahl Zyklen für Masseschlusserkennung der MIL-Request-Leitung},1 $F269,$F269 /SPW,9,1, 0., 255. /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 1445,/SPZ,ZMFBM,{Anzahl Zyklen für MIL-Ausschalten},1 $F268,$F268 /SPW,9,1, 0., 255. /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 1446,/SPZ,ZMFBN,{Anzahl Zyklen für MIL-Einschalten},1 $F267,$F267 /SPW,9,1, 0., 255. /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 1447,/SPZ,ZMGRW,{Time constant of the filter matrix for values dav},1 $F121,$F121 /SPW,34,1, 0.35852, 91.42272 /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 1448,/SPZ,ZMLTE,{Zeitkonstante für ml-Filter in beladungsabh. Tankentlüftung},1 $F118,$F118 /SPW,208,1, 0.196078, 50. /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 1449,/SPZ,ZNSM,{Zeitkonstante für Solldrehzahlabregelung},7 $C8B0,$D486 /SPW,29,1,0.0239014, 6.094848 /SPX,168,1, 0., 0.,1202 /SPY,0,0, 0., 0.,0 /FKX,16,0,0 /FKY,0,0,0 /ABL,0; 1450,/SPZ,ZQA,{Zeitkonstante für Luftvorsteuerung Adaption},1 $C942,$C942 /SPW,37,1, 0.764844, 195.0351 /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 1451,/SPZ,ZQAC,{Time constant for AC - engagement},1 $13228,$13228 /SPW,30,1, 0.100392, 25.6 /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 1452,/SPZ,ZQFSA,{Zeitkonstante bei Fahrstufe aus},1 $C93B,$C93B /SPW,30,1, 0.100392, 25.6 /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 1453,/SPZ,ZQFSE,{Zeitkonstante bei Fahrstufe ein},1 $C93A,$C93A /SPW,30,1, 0.100392, 25.6 /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 1454,/SPZ,ZQLLTL,{Zeitkonstante für Luftaufsteuerung beim Übergang LL in TL},1 $C93E,$C93E /SPW,30,1, 0.100392, 25.6 /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 1455,/SPZ,ZQSOL,{Zeitkonstante für qsol-Filterung},1 $13229,$13229 /SPW,32,1,0.0119507, 3.047424 /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 1456,/SPZ,ZQTEML,{Auf-/Absteuergeschwindigkeit Spülrate},4 $CA84,$CA84 /SPW,167,1, 0., 1.938 /SPX,107,1, 0., 409.6,9 /SPY,0,0, 0., 0.,0 /FKX,17,4,0 /FKY,0,0,0 /ABL,0; 1457,/SPZ,ZQVNSM,{Zeitkonstante LLR - Vorsteuerung im Nachstart},7 $C890,$D0B6 /SPW,30,1, 0.100392, 25.6 /SPX,168,1, 0., 0.,1202 /SPY,0,0, 0., 0.,0 /FKX,16,0,0 /FKY,0,0,0 /ABL,0; 1458,/SPZ,ZQVSN,{Zeitkonstante Vorsteuerung für abnehmende Werte},1 $C93D,$C93D /SPW,30,1, 0.100392, 25.6 /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 1459,/SPZ,ZQVSP,{Zeitkonstante Vorsteuerung für zunehmende Werte},1 $C93C,$C93C /SPW,30,1, 0.100392, 25.6 /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 1460,/SPZ,ZSYNABR,{numner of ignitions for decision Adaptions abort},1 $F193,$F193 /SPW,9,1, 0., 255. /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 1461,/SPZ,ZSYNAUSW,{number of ignitions Zündungen (Synchros) to evaluate},1 $F197,$F197 /SPW,9,1, 0., 255. /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 1462,/SPZ,ZTFAN,{Filterzeitkonstante des Abgastemperaturmodell für Motorlüftersteuerung},1 $C929,$C929 /SPW,41,1, 24.67238, 6291.456 /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 1463,/SPZ,ZTLFLL,{Zeitkonstante tL-Filter, LL, Geschwindigkeit klein},1 $F1D9,$F1D9 /SPW,9,1, 0., 255. /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 1464,/SPZ,ZTLFN,{Zeitkonstante tL - Filter},7 $13146,$13E68 /SPW,9,1, 0., 255. /SPX,127,1, 0., 0.,919 /SPY,0,0, 0., 0.,0 /FKX,16,0,0 /FKY,0,0,0 /ABL,0; 1465,/SPZ,ZTLFNN,{Time constant tL - Filters with negative load change},7 $13144,$13E58 /SPW,9,1, 0., 255. /SPX,127,1, 0., 0.,919 /SPY,0,0, 0., 0.,0 /FKX,16,0,0 /FKY,0,0,0 /ABL,0; 1466,/SPZ,ZTLWNTL,{Zeitkonstante tlwk-Filter fallend (negativ)},4 $13307,$13307 /SPW,9,1, 0., 255. /SPX,181,1, 0., 12.288,45 /SPY,0,0, 0., 0.,0 /FKX,17,4,0 /FKY,0,0,0 /ABL,0; 1467,/SPZ,ZTLWPTL,{Zeitkonstante tlwk-Filter ansteigend (positiv)},4 $132F6,$132F6 /SPW,9,1, 0., 255. /SPX,181,1, 0., 12.288,45 /SPY,0,0, 0., 0.,0 /FKX,17,4,0 /FKY,0,0,0 /ABL,0; 1468,/SPZ,ZUBKSTMX,{Anzahl Ubat-Bestimmungen < UBKST},1 $F195,$F195 /SPW,9,1, 0., 255. /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 1469,/SPZ,ZUKK,{Abregelfaktor Kurzzeitanteil},1 $13220,$13220 /SPW,60,1, 0., 0.996094 /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 1470,/SPZ,ZUKNST,{Abregelzeitkonstante ÜK-Faktor im Nachstart},1 $C9D7,$C9D7 /SPW,37,1, 0.764844, 195.0351 /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 1471,/SPZ,ZUKW,{Abregelfaktor Winkelanteil},1 $1321E,$1321E /SPW,60,1, 0., 0.996094 /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 1472,/SPZ,ZVALM,{Abregelfaktor L-Speicher (tmot) VA},7 $C882,$CF56 /SPW,58,1, 0., 0.124512 /SPX,168,1, 0., 0.,1202 /SPY,0,0, 0., 0.,0 /FKX,16,0,0 /FKY,0,0,0 /ABL,0; 1473,/SPZ,ZWDAUSDK,{Throttle angle limit for ZWD-off},1 $C949,$C949 /SPW,276,1, 4.166667, 95.83334 /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 1474,/SPZ,ZWDAUSN,{N-limit for ZWD-off},1 $C948,$C948 /SPW,128,1, 150., 6000. /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 1475,/SPZ,ZWDK,{Zeitkonstante für Leerlaufwinkeladaption},1 $F21D,$F21D /SPW,33,1, 0.119507, 30.47424 /SPX,0,0, 0., 0.,0 /SPY,0,0, 0., 0.,0 /FKX,0,0,0 /FKY,0,0,0 /ABL,0; 1,/REG,ACDRUCK,{AD value of AC pressure transducer},6,0,{kPa},4,6,-175.983, 3275.98 /REP, 229., 0., 0., 3100., 13., 0.; 2,/REG,ACDRUCK256,{AD value of AC pressure transducer (for FKLs)},6,0,{kPa},4,6,-175.983, 3289.52 /REP, 229., 0., 0., 3100., 13., 0.; 3,/REG,ACDRUCK_RE,{Pressure difference of AC pressure transducer},6,0,{kPa},4,6, 0., 3451.97 /REP, 229., 0., 0., 3100., 0., 0.; 4,/REG,AESAZAD,{Maximale Geberrad Toleranz},6,0,{%},1,6, 0., 1.5564 /REP, 32768., 0., 0., 200., 0., 0.; 5,/REG,ANFSTEIG,{Steigung der Hochregelung für Anfettung KAT-Schutz},6,0,{%/ms},1,6, 0. 8.36772 /REP, 30.4742, 0., 0., 1., 0., 0.; 6,/REG,BLIBLO,{anzahl der blinkcode-bloecke},6,0,{1},1,6, 3., 3. /REP, 1., 0., 0., 1., 0., 0.; 7,/REG,BMLA,{BM-Lage},6,0,{grad KW},3,6, 6., 197.25 /REP, 1., 0., 0., 0.75,-8., 0.; 8,/REG,B_XSTAT,{Dekodierung XSTAT},10,1,{},2,6, 0., 15. /REP, 1., 0., 0., 1., 0., 0.; 9,/REG,DEZ,{1 : 1 Translation (dec / hex)},6,0,{dez.},3,3, 0., 255. /REP, 1., 0., 0., 1., 0., 0.; 10,/REG,DEZ256,{1 : 1 Umrechnung (dez/hex)},6,0,{dez.},3,6, 0., 256. /REP, 1., 0., 0., 1., 0., 0.; 11,/REG,DEZ_16,{1 : 1 Umrechnung 16-Bit},6,0,{dez.},5,5, 0., 65535. /REP, 1., 0., 0., 1., 0., 0.; 12,/REG,DEZ_16S,{1 : 1 Umrechnung (dez/hex) vorzeichenbehaftet},6,0,{dez.},5,6,-32768. 32767. /REP, 1., 0., 0., 1., 0., 65536.; 13,/REG,DEZ_TEMP,{1 : 1 Umrechnung (dez/hex) mit Dimension Grad C},6,0,{grad C},3,3, 0. 255. /REP, 1., 0., 0., 1., 0., 0.; 14,/REG,DLAHKUMR,{1 inc equals factor: 0.000625},6,0,{-},1,6, 0., 0.15937 /REP, 1600., 0., 0., 1., 0., 0.; 15,/REG,DLAMBDA,{Lambda - Differenz zu Lambda 1},6,0,{ },0,6,-.0635,0.064 /REP,-1.,0.064, 0., 0.50000E-3, 0., 0.; 16,/REG,DMXRLU,{Laufunruhewert pro Zuendung},6,0,{(Umdr/s)^2/NW},2,6, 0., 32.9844 /REP, 1., 0., 0., 0.12935, 0., 0.; 17,/REG,DNALU,{delta-n},6,0,{1/min / s},5,6, 0., 80330.1 /REP,0.095232, 0., 0., 30., 0., 0.; 18,/REG,DREFP,{Normierten Ref.pegel fuer K-Faktor},6,0,{dez.},1,3, 0., 4. /REP, 1., 0., 0., 1., 0., 0.; 19,/REG,DTLALU,{LOADCHANGE per second},6,0,{ms/s},3,6, 0., 342.742 /REP,0.023808, 0., 0.,0.032, 0., 0.; 20,/REG,DTLBA,{Delta TL fuer BA},6,0,{ms},1,6, 0., 8.16 /REP, 1., 0., 0.,0.032, 0., 0.; 21,/REG,DTLW,{delta-TLW(KF) positiv pro 12ms},6,0,{ms/12ms},2,6, 0., 12.288 /REP, 1., 0., 0.,0.048, 0., 0.; 22,/REG,DTLW_SGN,{delta-tlw (8bit,vorzeichen)},6,0,{ms},1,6,-6., 6. /REP, 1., 0., 0.,0.048, 0., 256.; 23,/REG,DUPBA,{Delta Luftmasse},6,0,{-},1,6, 0., 4.08 /REP, 1., 0., 0.,0.016, 0., 0.; 24,/REG,DWDK,{delta Drosselklappenwinkel ueber 12ms},6,0,{grad DK/12ms},3,6, 0., 106.25 /REP, 230.4, 0., 0., 96., 0., 0.; 25,/REG,DWF,{(delta-)wandfilmkennlinie (16bit)},6,0,{ms},4,6, 0., 1572.84 /REP, 1., 0., 0.,0.024, 0., 0.; 26,/REG,DWF_H,{delta-wandfilmkennlinie, highbyte, betrag},6,0,{ms},4,6, 0., 1566.72 /REP, 1., 0., 0., 6.144, 0., 0.; 27,/REG,DWF_L,{delta-wandfilmkennlinie, lowbyte, betrag},6,0,{ms},1,6, 0., 6.12 /REP, 1., 0., 0.,0.024, 0., 0.; 28,/REG,DWF_SGN,{delta-wandfilmkennlinie (16bit,vorzeichen)},6,0,{ms},3,6,-786., 786. /REP, 1., 0., 0.,0.024, 0., 65536.; 29,/REG,EX16L,{PT1-Funktion 16 Bit, LLR-Zeitraster},6,0,{s},1,6,0.023901, 6.09485 /REP, 0., 6.09485, 1., 0., 0., 0.; 30,/REG,EX16M,{PT1-Funktion 16 Bit, Programmlaufzeitraster},6,0,{s},2,6, 0.10039, 25.6 /REP, 0., 25.6, 1., 0., 0., 0.; 31,/REG,EX16M_V,{PT1-Funktion 16 Bit, Hintergrundprogrammlaufzeit variabel},6,0,{s},2,6 0.096376, 24.576 /REP, 0., 24.576, 1., 0., 0., 0.; 32,/REG,EX16T,{PT1-Funktion 16 Bit, Zeitraster},6,0,{s},1,6,0.011951, 3.04742 /REP, 0., 3.04742, 1., 0., 0., 0.; 33,/REG,EX16T1,{PT1-Funktion 16 Bit, Zeitraster},6,0,{s},2,6, 0.11951, 30.4742 /REP, 0., 30.4742, 1., 0., 0., 0.; 34,/REG,EX16T3,{PT1-Funktion 16 Bit, 300ms-Zeitraster},6,0,{s},2,6, 0.35852, 91.4227 /REP, 0., 91.4227, 1., 0., 0., 0.; 35,/REG,EX16T4,{PT1-Funktion 16 Bit, 48ms-Zeitraster},6,0,{s},2,6,0.047803, 12.1897 /REP, 0., 12.1897, 1., 0., 0., 0.; 36,/REG,EX16_320MS,{PT1-Funktion 16 Bit, Zeitraster - fuer HFM-Korrektur},6,0,{s},2,6 0.38242, 97.5176 /REP, 0., 97.5176, 1., 0., 0., 0.; 37,/REG,EX16_64M1,{PT1-Funktion 16 Bit, im 64*Main1-Raster},6,0,{s},3,6, 0.76484, 195.035 /REP, 0., 195.035, 1., 0., 0., 0.; 38,/REG,EX24M,{PT1-Funktion 24 Bit, Programmlaufzeitraster},6,0,{s},4,6, 25.7004, 6553.6 /REP, 0., 6553.6, 1., 0., 0., 0.; 39,/REG,EX24M2K,{PT1-Funktion 24 Bit, korr., doppeltes Programmlaufzeitraster},6,0,{s},3,6 0.77101, 196.608 /REP, 0., 393.216, 2., 0., 0., 0.; 40,/REG,EX24MK,{PT1-Funktion 24 Bit, korrigiertes Programmlaufzeitraster},6,0,{s},3,6 1.54202, 393.216 /REP, 0., 393.216, 1., 0., 0., 0.; 41,/REG,EX24MK16,{PT1-Filter 24 Bit, korr. Programmlaufzeitraster, 16x untersetzt},6,0,{s} 4,6, 24.6724, 6291.46 /REP, 0., 6291.46, 1., 0., 0., 0.; 42,/REG,EX24MK4,{PT1-Filter 24 Bit, korr. Programmlaufzeitraster, 4x untersetzt},6,0,{s},4 6, 6.16809, 1572.86 /REP, 0., 1572.86, 1., 0., 0., 0.; 43,/REG,EX24T,{PT1-Funktion 24 Bit, Zeitraster},6,0,{s},3,6, 3.05937, 780.141 /REP, 0., 780.141, 1., 0., 0., 0.; 44,/REG,EX24T1,{PT1-Funktion 24 Bit, Zeitraster},6,0,{s},4,6, 6.11875, 1560.28 /REP, 0., 1560.28, 1., 0., 0., 0.; 45,/REG,F32ZAD,{Toleranz Geberrad bezogen auf Segmentlaenge},6,0,{%},3,6,-100., 99.997 /REP, 327.68, 32768., 0., 1., 0., 0.; 46,/REG,FABSALU,{Abreglung BS-Sensor},6,0,{g/s},1,6, 0., 4.0858 /REP, 780.141, 0., 0., 12.5, 0., 0.; 47,/REG,FAKT_LR,{faktor 0...8},6,0,{-},1,4, 0., 7.96875 /REP, 1., 0., 0.,0.03125, 0., 0.; 48,/REG,FD_DKHA,{delta Faktor DK-Höhenadaption},6,0,{-},-1,6, 0., 0.25500E-2 /REP, 1., 0., 0., 1.00000E-5, 0., 0.; 49,/REG,FK65536,{Korrekturfaktor 1 entspricht 2^16},6,0,{-},-1,6, 0., 0.38910E-2 /REP, 65536., 0., 0., 1., 0., 0.; 50,/REG,FKT127,{fuer amplitudenverhaeltnis lambdaschwingungen},6,0,{1},1,6, 0., 1. /REP, 127., 0., 0., 1., 0., 0.; 51,/REG,FKT128,{Korrekturfaktor 1 entspricht 128},6,0,{-},1,6, 0., 1.99219 /REP, 128., 0., 0., 1., 0., 0.; 52,/REG,FKT16,{Korrekturfaktor 1 entspricht 16},6,0,{-},2,6, 0., 15.9375 /REP, 16., 0., 0., 1., 0., 0.; 53,/REG,FKT16384_2,{Faktor 0.0156 entspricht 256},6,0,{-},0,6, 0.,0.015625 /REP, 16384., 0., 0., 1., 0., 0.; 54,/REG,FKT1_256,{Correction factor 1 corresponds to 0 increments},6,0,{-},1,6, 1., 1.99609 /REP, 256., 0., 0., 1.,-256., 0.; 55,/REG,FKT1_2B,{16bit-faktor mit phys[0;256[},6,0,{},3,6, 0., 255.996 /REP, 65536., 0., 0., 256., 0., 0.; 56,/REG,FKT1_2_2B,{16bit-faktor mit phys[0;256[ *2},6,0,{},3,6, 0., 511.992 /REP, 65536., 0., 0., 512., 0., 0.; 57,/REG,FKT2,{fuer UK-anreicherungsfaktoren (xfbak...)},6,0,{1},3,6, 0., 127.5 /REP, 2., 0., 0., 1., 0., 0.; 58,/REG,FKT2048,{Faktor 0.125 entspricht 256},6,0,{-},1,6, 0., 0.12451 /REP, 2048., 0., 0., 1., 0., 0.; 59,/REG,FKT255,{Korrekturfaktor 1 entspricht 255},6,0,{-},1,6, 0.39062E-2, 1. /REP, 256., 0., 0., 1.,-1., 0.; 60,/REG,FKT256,{Korrekturfaktor 1 entspricht 256},6,0,{-},1,6, 0., 0.99609 /REP, 256., 0., 0., 1., 0., 0.; 61,/REG,FKT256_10D,{Korrekturfaktor 10 entspricht 256},6,0,{hPa/s},1,6, 0., 9.96094 /REP, 256., 0., 0., 10., 0., 0.; 62,/REG,FKT256_12D,{Korrekturfaktor 10 entspricht 256},6,0,{hPa/s},2,6, 0., 10. /REP, 256., 0., 0., 10., 0., 0.; 63,/REG,FKT256_16,{Korrekturfaktor 16 entspricht 256},6,0,{-},2,6, 0., 15.9375 /REP, 256., 0., 0., 16., 0., 0.; 64,/REG,FKT256_20D,{Korrekturfaktor 20 entspricht 256},6,0,{hPa/s},2,6, 0., 19.9219 /REP, 256., 0., 0., 20., 0., 0.; 65,/REG,FKT256_5D,{Korrekturfaktor 5 entspricht 256},6,0,{hPa/s},1,6, 0., 4.98047 /REP, 256., 0., 0., 5., 0., 0.; 66,/REG,FKT2_2B,{16bit-faktor mit phys[0;128[},6,0,{},3,6, 0., 127.998 /REP, 65536., 0., 0., 128., 0., 0.; 67,/REG,FKT2_2_2B,{16bit-faktor mit phys[0;128[ *2},6,0,{},3,6, 0., 255.996 /REP, 65536., 0., 0., 256., 0., 0.; 68,/REG,FKT32,{Korrekturfaktor 1 entspricht 32 counts},6,0,{-},1,6, 0., 7.96875 /REP, 32., 0., 0., 1., 0., 0.; 69,/REG,FKT32_2B,{16bit-faktor mit phys[0;8[},6,0,{},1,6, 0., 7.99988 /REP, 65536., 0., 0., 8., 0., 0.; 70,/REG,FKT512,{Faktor 0.5 entspricht 512},6,0,{-},1,6, 0., 0.49805 /REP, 512., 0., 0., 1., 0., 0.; 71,/REG,FKT512_4,{Faktor 0.75 entspricht 0 Inkr. Faktor 1.25 enspricht 255 Inkr.},6,0,{-} 1,6, 0.75, 1.25 /REP, 512., 0., 0., 1.,-384., 0.; 72,/REG,FKT64,{Korrekturfaktor 1 entspricht 64},6,0,{-},1,6, 0., 3.98438 /REP, 64., 0., 0., 1., 0., 0.; 73,/REG,FKT8,{Korrekturfaktor 1 entspricht 8},6,0,{-},2,6, 0., 31.875 /REP, 8., 0., 0., 1., 0., 0.; 74,/REG,FKTI256,{Umrechnung Pulsationskorrektur HLM},6,0,{ },1,5, 0.39062E-2, 1. /REP,-256., 256., 0., 1., 0., 0.; 75,/REG,FKTP256,{Prozentfaktor 100% entspricht 256},6,0,{%},2,6, 0., 99.6094 /REP, 256., 0., 0., 100., 0., 0.; 76,/REG,FKT_128_2,{Korrekturfaktor 1 entspricht 128},6,0,{-},1,6, 0., 2. /REP, 128., 0., 0., 1., 0., 0.; 77,/REG,FKT_16_2,{Korrekturfaktor 1 entspricht 16},6,0,{-},2,6, 0., 16. /REP, 16., 0., 0., 1., 0., 0.; 78,/REG,FKT_255_2,{Korrekturfaktor 1 entspricht 256},6,0,{-},1,6, 0.39062E-2, 1.00391 /REP, 256., 0., 0., 1.,-1., 0.; 79,/REG,FKT_256_2,{Korrekturfaktor 1 entspricht 256},6,0,{-},1,6, 0., 1. /REP, 256., 0., 0., 1., 0., 0.; 80,/REG,FKT_256_2D,{Korrekturfaktor 1 entspricht 256},6,0,{hPa/s},1,6, 0., 1. /REP, 256., 0., 0., 1., 0., 0.; 81,/REG,FKT_64_2,{Korrekturfaktor 1 entspricht 64},6,0,{-},1,6, 0., 4. /REP, 64., 0., 0., 1., 0., 0.; 82,/REG,FKT_8_2,{Korrekturfaktor 1 entspricht 8},6,0,{-},2,6, 0., 16. /REP, 8., 0., 0., 1., 0., 0.; 83,/REG,FSGN128,{vorzeichenbehafteter Faktor vom Betrag 0 .. 0.99},6,0,{-},1,6,-1. 0.99219 /REP, 128., 128., 0., 1., 0., 0.; 84,/REG,FSGNN128,{Faktor 0 .. 1},6,0,{-},1,6,-0.99219, 1. /REP,-128., 128., 0., 1., 0., 0.; 85,/REG,FSWALU,{SCHWELLE BS-SENSOR},6,0,{g},2,6, 0., 12.4512 /REP, 256., 0., 0., 12.5, 0., 0.; 86,/REG,F_MP1,{Faktor -1 ... +1},6,0,{-},1,6,-1., 0.99219 /REP, 128., 0., 0., 1., 128., 0.; 87,/REG,GSTBIN,{Hexwert in Dezimalwert},6,0,{Kennlinien-Nr.},3,6, 0., 255. /REP, 1., 0., 0., 1., 0., 0.; 88,/REG,HOEHE,{Umgebungsdruck (Hoehengeber)},1,1,{hPa},4,6, 562.6, 1130.8 /REP, 0., 0., 0., 0., 0., 0.; 89,/REG,INTST,{Integratorsteigung},6,0,{%/sec},3,6, 0., 174.328 /REP, 1.46276, 0., 0., 1., 0., 0.; 90,/REG,IS,{Integratorsteigung},6,0,{%/sec},3,6, 0., 207.52 /REP, 1.2288, 0., 0., 1., 0., 0.; 91,/REG,IVHI,{High-Byte Leerlauf-Regler XIVHI},6,0,{kg/h},2,6,-51.2, 50.8 /REP, 2.5, 128., 0., 1., 0., 0.; 92,/REG,I_LR,{Slope of the LR-control factor},6,0,{%/s},2,5, 0.25636, 65.3728 /REP, 1., 0., 0., 0.25636, 0., 0.; 93,/REG,YES_NO,{Entscheidungslogik},10,2,{},2,6, 1., 20. /REP, 1., 0., 0., 1., 0., 0.; 94,/REG,KEKRFSW,{Erhoehungsfaktor},6,0,{-},3,6, 1.00392, 256. /REP, 0., 256., 1., 0., 0., 0.; 95,/REG,KEKRSW,{Factor for knock detection},6,0,{},1,3, 1., 9.84615 /REP, 0.,-256., 1., 0., 256., 0.; 96,/REG,KFKSWF,{Anzahl Zuendaussetzer (Katschaedigend)},6,0,{ },3,6, 0., 255. /REP, 1., 0., 0., 1., 0., 0.; 97,/REG,KMH,{Geschwindigkeit},6,0,{km/h},3,3, 0., 255. /REP, 1., 0., 0., 1., 0., 0.; 98,/REG,KVB,{Durchfluß -> KVB = f(Durchfluß)},6,0,{ml/sec},2,5, 0., 52.0825 /REP, 1258.29, 0., 0., 1., 0., 0.; 99,/REG,KVS,{Additive Korrekturfaktoren der LRA},6,0,{us},3,6,-512., 508. /REP, 1., 0., 0., 4., 128., 0.; 100,/REG,KVSB,{Betrag der Änderung in den additiven Korrekturfaktoren der LRA},6,0,{us},3 6, 0., 510. /REP, 2., 0., 0., 4., 0., 0.; 101,/REG,LAHKUMR,{factor 0.92 ... 1 ... 1.08},6,0,{-},1,6, 0.92, 1.07938 /REP, 1600., 0., 0., 1.,-1472., 0.; 102,/REG,LDR_P_PART,{P-Anteil LMR, 0% entspricht 128},6,0,{%},3,6,-100., 99.2188 /REP, 128., 12800., 0., 100., 0., 0.; 103,/REG,LMRI,{I part the air mass control},6,0,{%},3,6,-100., 99.9969 /REP, 65536., 6.55360E6, 0., 200., 0., 0.; 104,/REG,LU_QLU,{Laufunruhewert},6,0,{(Umdr/s)^2},3,6, 0., 131.937 /REP, 1., 0., 0., 0.5174, 0., 0.; 105,/REG,M02,{Steller-Luftmenge},6,0,{kg/h},2,6, 0., 51. /REP, 5., 0., 0., 1., 0., 0.; 106,/REG,M16,{Steller-Luftmenge},6,0,{kg/h},3,6, 0., 408. /REP, 0.625, 0., 0., 1., 0., 0.; 107,/REG,M16_256,{Steller-Luftmenge (für Festkennlinien)},6,0,{kg/h},3,6, 0., 409.6 /REP, 0.625, 0., 0., 1., 0., 0.; 108,/REG,MAX0_03,{Faktor 0.03 entspricht 255},6,0,{-},0,6, 0.,0.030118 /REP, 1., 0., 0., 0.11765E-3, 0., 0.; 109,/REG,MAX0_0625,{Faktor 0.0625 entspricht 255},6,0,{-},0,6, 0.,0.062745 /REP, 1., 0., 0., 0.24510E-3, 0., 0.; 110,/REG,ML,{Air mass flow},6,0,{kg/h},2,6, 0., 31.875 /REP, 1., 0., 0., 0.125, 0., 0.; 111,/REG,ML2BYTE,{Luftmassenfluss 2 Bytes},6,0,{kg/h},4,6, 0., 8191.88 /REP, 1., 0., 0., 0.125, 0., 0.; 112,/REG,MSRAST,{ansteuerung tankentlueftungsventil},6,0,{ms},3,6, 0., 244.8 /REP, 1., 0., 0., 0.96, 0., 0.; 113,/REG,MSTELL,{Steller-Luftmenge},6,0,{kg/h},3,6, 0., 102. /REP, 2.5, 0., 0., 1., 0., 0.; 114,/REG,M_160E_3,{1 Ink. entspricht 32*TBGR5},6,0,{S},2,6, 0., 48.96 /REP, 1., 0., 0., 0.192, 0., 0.; 115,/REG,M_80E_3,{1 Ink. entspricht 16*TBGR5},6,0,{S},2,6, 0., 24.48 /REP, 1., 0., 0.,0.096, 0., 0.; 116,/REG,M_AIRM43,{ML durch KAT (0.08g/Ink in Zeitraster)},6,0,{g},4,6, 0., 6391.22 /REP, 4200., 0., 0., 409.6, 0., 0.; 117,/REG,M_LUFT075,{UMF Luftmasse durch Katalysator},6,0,{g},3,6, 0., 227.37 /REP, 1., 0., 0., 0.89165, 0., 0.; 118,/REG,M_LUFT10,{UMF Luftmasse durch Katalysator},6,0,{g},4,6, 0., 3183.18 /REP, 1., 0., 0., 12.483, 0., 0.; 119,/REG,M_LUFT20,{UMF Luftmasse durch Katalysator (Kondenswassermodell)},6,0,{g},4,6, 0. 6366.35 /REP, 1., 0., 0., 24.9661, 0., 0.; 120,/REG,N,{Drehzahl},6,0,{1/min},4,6, 0., 7650. /REP, 1., 0., 0., 30., 0., 0.; 121,/REG,N10,{Drehzahl in 10 Umdr. Quantisiert},6,0,{1/min},4,5, 0., 2550. /REP, 1., 0., 0., 10., 0., 0.; 122,/REG,N10GRAD4,{n10-Drehzahlgradient über 4*MAIN1-Zeitraster},6,0,{1/min / s},5,6 -26671.7, 26461.7 /REP,0.047616, 0., 0., 10., 0., 256.; 123,/REG,N10_256,{Drehzahl q=10upm als source fuer FKL},6,0,{1/min},4,6, 0., 2560. /REP, 1., 0., 0., 10., 0., 0.; 124,/REG,N256,{Drehzahl},6,0,{1/min},4,6, 0., 7680. /REP, 1., 0., 0., 30., 0., 0.; 125,/REG,NGRAD,{Drehzahlgradient},6,0,{1/min / s},5,6, 0., 80645.2 /REP,0.095232, 0., 0., 30., 0., 0.; 126,/REG,NGST,{Drehzahl-Stuetzstellen-Nr.},6,0,{-},1,6, 0., 7. /REP, 1., 0., 0., 1., 0., 0.; 127,/REG,NMOT,{rotational speed},6,0,{1/min},4,6, 0., 7650. /REP, 1., 0., 0., 30., 0., 0.; 128,/REG,N_ZWD,{Drehzahl},6,0,{1/min},4,5, 150., 6000. /REP, 1., 0., 0., 30., 0., 0.; 129,/REG,OK_NOK,{Fehlerlogik},10,3,{},2,6, 1., 20. /REP, 1., 0., 0., 1., 0., 0.; 130,/REG,P199,{Zeitumrechnung ZDTEAB in Prozent/s},6,0,{%/s},3,6, 4.08497, 104.167 /REP, 0., 266667., 256., 0., 0., 0.; 131,/REG,PDEZ,{1 Inkrement ist 1 hPa},6,0,{hPA},3,3, 0., 255. /REP, 1., 0., 0., 1., 0., 0.; 132,/REG,P_LR,{Prozentuale Aenderung des LR-Regelfaktors bei P-Sprung},6,0,{%},2,5, 0. 12.4512 /REP, 1., 0., 0.,0.048828, 0., 0.; 133,/REG,P_TANK,{Tankdruck mit Offset},6,0,{hPa},2,6,-31.25, 31.0059 /REP, 1., 0., 0., 0.24414, 128., 0.; 134,/REG,P_TANK_OO,{Tankdruck ohne Offset; 1 Ink. = P_TANK_I hPa},6,0,{hPa},2,6, 0. 62.2559 /REP, 1., 0., 0., 0.24414, 0., 0.; 135,/REG,Q16,{Steller-Luftmenge},6,0,{kg/h},3,6, 0., 408. /REP, 0.625, 0., 0., 1., 0., 0.; 136,/REG,QKHTABG,{Heizwiderstandsänderung pro Abgastemperaturänderung},6,0,{Ohm/Grad C},0 6, 0.,0.089798 /REP, 20., 0., 0., 0.70430E-2, 0., 0.; 137,/REG,QKHUB,{Heizwiderstandsänderung pro Batteriespannungsänderung},6,0,{Ohm/V},1,6 0., 5.1 /REP, 5., 0., 0.,0.1, 0., 0.; 138,/REG,QSTELL,{Steller-Luftmenge},6,0,{kg/h},3,6, 0., 102. /REP, 2.5, 0., 0., 1., 0., 0.; 139,/REG,QSTELL256,{Steller-Luftmassenstrom},6,0,{kg/h},2,6, 0., 25.6 /REP, 10., 0., 0., 1., 0., 0.; 140,/REG,RIH,{Probe heating resistance},6,0,{Ohm},2,6, 0., 91.953 /REP,0.019531, 0., 0., 0.70430E-2, 0., 0.; 141,/REG,SEC12_LR,{threshold: 1536 ms 1 inc= 12ms},6,0,{ms},4,4, 0., 3035.52 /REP, 1., 0., 0., 11.904, 0., 0.; 142,/REG,SEC240,{ 285.7 ms Raster},6,0,{sec},2,4, 0., 72.8525 /REP, 1., 0., 0., 0.2857, 0., 0.; 143,/REG,SEC60,{ 71.42 ms Raster},6,0,{sec},2,4, 0., 18.2131 /REP, 1., 0., 0.,0.071424, 0., 0.; 144,/REG,SEC72,{72 ms Raster},6,0,{sec},2,4, 0., 18.2131 /REP, 1., 0., 0.,0.071424, 0., 0.; 145,/REG,SEC96,{96 ms timer},6,0,{s},2,4, 0., 24.2842 /REP, 10.5007, 0., 0., 1., 0., 0.; 146,/REG,SEC__60,{Umrechnung der Overboost-Abregelzeit},6,0,{sec},3,6, 2.29453, 585.105 /REP, 0., 585.105, 1., 0., 0., 0.; 147,/REG,SEGMENT,{quantisierung 1 segment (:= 144 grad KW (5Cyl.))},6,0,{grad KW},5,6, 0. 36720. /REP, 1., 0., 0., 144., 0., 0.; 148,/REG,SIG64,{Quantisierung Beladungsfaktor High-Byte bei TEB14},6,0,{},2,6,-64., 63.5 /REP, 2., 0., 0., 1., 128., 0.; 149,/REG,SLP_ENA,{Ein/Ausschalten SLP},2,2,{dez.},3,6, 0., 255. /REP, 0., 0., 0., 0., 0., 0.; 150,/REG,SPEED,{speed},6,0,{km/h},3,3, 0., 256. /REP, 1., 0., 0., 1., 0., 0.; 151,/REG,STKLINTNT,{Grenzwert der Integratorsteigung},6,0,{mV/ms},3,6, 0., 202.656 /REP, 1., 0., 0., 0.79473, 0., 0.; 152,/REG,STUF,{segment-raster (144grdKW bei 5zyl)},6,0,{ Segmente},3,6, 0., 255. /REP, 1., 0., 0., 1., 0., 0.; 153,/REG,T10S,{10s-Zeitraster},6,0,{s},4,6, 0., 2550. /REP, 1., 0., 0., 10., 0., 0.; 154,/REG,T16MAIN1,{16*MAIN1-Zeitraster},6,0,{s},2,6, 0., 48.5683 /REP, 1., 0., 0., 0.19046, 0., 0.; 155,/REG,T1S,{1-sekunden-zaehler},6,0,{s},3,6, 0., 255. /REP, 1., 0., 0., 1., 0., 0.; 156,/REG,T256S,{256-sekunden-zaehler},6,0,{s},5,6, 0., 65280. /REP, 1., 0., 0., 256., 0., 0.; 157,/REG,T300MS,{300ms-Zeitraster},6,0,{s},2,6, 0., 91.0656 /REP, 84.0054, 0., 0., 30., 0., 0.; 158,/REG,T4800MS,{300ms-Zeitraster, 16-fach untersetzt},6,0,{s},4,6, 0., 1457.05 /REP, 84.0054, 0., 0., 480., 0., 0.; 159,/REG,T500MS,{500ms-zeitraster},6,0,{s},3,6, 0., 127.5 /REP, 1., 0., 0., 0.5, 0., 0.; 160,/REG,T64MAIN1,{64*main1-zeitraster},6,0,{s},3,6, 0., 194.273 /REP, 1., 0., 0., 0.76186, 0., 0.; 161,/REG,T8MAIN1,{8*MAIN1-Zeitraster},6,0,{s},2,6, 0., 24.2842 /REP, 1., 0., 0.,0.095232, 0., 0.; 162,/REG,TABG,{Abgastemperatur},6,0,{Grad C},3,3,-48., 972. /REP, 1., 48., 0., 4., 0., 0.; 163,/REG,TAU,{Tastverhaeltnis},6,0,{%},2,6, 0., 99.6094 /REP, 2.56, 0., 0., 1., 0., 0.; 164,/REG,TB,{values for voltage correction},6,0,{ms},1,6, 0., 4.9725 /REP, 1., 0., 0.,0.0195, 0., 0.; 165,/REG,TDIAG,{Diagnosezeiten},6,0,{s},2,6, 0., 30.3552 /REP, 84.0054, 0., 0., 10., 0., 0.; 166,/REG,TDIAG1,{Diagnosezeiten},6,0,{s},3,6, 0., 303.552 /REP, 84.0054, 0., 0., 100., 0., 0.; 167,/REG,TEIQ_064,{Änderung der Spülrate},6,0,{% (von max. Spülrate},1,6, 0., 1.938 /REP, 1., 0., 0., 0.76000E-2, 0., 0.; 168,/REG,TEMP,{Kuehlmittel-Temperatur},6,0,{grad C},3,6,-44., 150. /REP, 1., 0., 0., 1., 80., 0.; 169,/REG,TEMP256,{Temperatur},6,0,{grad C},3,6,-80., 176. /REP, 1., 0., 0., 1., 80., 0.; 170,/REG,TEMPDIFF,{Temperaturdifferenz},6,0,{grad C},3,6, 0., 255. /REP, 1., 0., 0., 1., 0., 0.; 171,/REG,TFATEMP,{(Ansaug-)Luft-Temperatur},6,0,{grad C},3,6,-55., 150. /REP, 1., 0., 0., 1., 80., 0.; 172,/REG,TFREQ,{Frequenzprogramm-Zeitraster},6,0,{s},1,6, 0., 6.12 /REP, 1., 0., 0.,0.024, 0., 0.; 173,/REG,TFZQTE,{Absteuerung FTEFVA wenn B_TEI -> 0},6,0,{s},3,6, 0.8, 204. /REP, 0., 1000., 4.90196, 0., 0., 0.; 174,/REG,THLS,{Zeit fuer Theoretische Sondenbereitschaft},6,0,{S},3,6, 0., 391.68 /REP, 1., 0., 0., 1.536, 0., 0.; 175,/REG,TIMHB,{Inkrement Timer-High-Byte},6,0,{ms},2,6, 0., 48.96 /REP, 1., 0., 0., 0.192, 0., 0.; 176,/REG,TI_H,{TI - values for SEFI},6,0,{ms},3,6, 0., 130.56 /REP, 1., 0., 0., 0.512, 0., 0.; 177,/REG,TI_H_256,{uebergabefaktor aus te-rechnung an SeFi-"modul"},6,0,{ms},5,6, 0. 25067.5 /REP, 1., 0., 0., 98.304, 0., 0.; 178,/REG,TI_H_D16,{ab bit 4 von startbereich-B1-te_h},6,0,{ms},4,6, 0., 1566.72 /REP, 1., 0., 0., 6.144, 0., 0.; 179,/REG,TI_L,{16bit ti, low-quantisierung},6,0,{ms},3,6, 0., 131.07 /REP, 1., 0., 0., 0.20000E-2, 0., 0.; 180,/REG,TL,{Load},6,0,{ms},2,6, 0., 12.24 /REP, 1., 0., 0.,0.048, 0., 0.; 181,/REG,TL256,{Load for fixed characteristic lines / fields},6,0,{ms},2,6, 0., 12.288 /REP, 1., 0., 0.,0.048, 0., 0.; 182,/REG,TLLR,{Zeitraster LLR},6,0,{s},1,6, 0., 6.07104 /REP, 42.0027, 0., 0., 1., 0., 0.; 183,/REG,TLR,{Ueberwachungszeiten Lambdaregelung},6,0,{s},2,6, 0., 91.0656 /REP, 1., 0., 0., 0.35712, 0., 0.; 184,/REG,TLW,{Conversion time for KFTLW},6,0,{ms},2,6, 0., 12.24 /REP, 1., 0., 0.,0.048, 0., 0.; 185,/REG,TLWF,{load for wall film-curve},6,0,{ms},2,6, 0., 12.288 /REP, 1., 0., 0.,0.048, 0., 0.; 186,/REG,TL_H,{high-quantisierung von tl,te},6,0,{ms},5,6, 0., 25165.4 /REP, 1., 0., 0., 0.384, 0., 0.; 187,/REG,TL_H_HALB,{high-quantisierung-halbe von tl,te},6,0,{ms},2,6, 0., 48.96 /REP, 1., 0., 0., 0.192, 0., 0.; 188,/REG,TL_L,{16bit tl, low-quantization},6,0,{ms},2,6, 0., 98.3025 /REP, 1., 0., 0., 0.15000E-2, 0., 0.; 189,/REG,TL_L_SGN,{16bit Gesamt-UK-te, vorzeichenbehaftet},6,0,{ms},2,6,-49.0005, 49.0005 /REP, 1., 0., 0., 0.15000E-2, 0., 65536.; 190,/REG,TL_N,{load difference},6,0,{ms},2,6,-12.24, 0. /REP,-1., 0., 0.,0.048, 0., 0.; 191,/REG,TMAIN,{Hauptprogrammlaufzeit},6,0,{s},2,6, 0., 25.5 /REP, 10., 0., 0., 1., 0., 0.; 192,/REG,TMAIN1,{Main1-Zeitraster},6,0,{s},1,6, 0., 3.03552 /REP, 1., 0., 0.,0.011904, 0., 0.; 193,/REG,TMESS_2O,{2*Main1-Zeitraster, offset 1 count},6,0,{ms},4,6, 0., 6047.23 /REP, 1., 0., 0., 23.808, 1., 0.; 194,/REG,TMESS_SGN,{tv-verlaengerung/-verkuerzung v. LRHK},6,0,{ms},4,6,-1523.71, 1511.81 /REP, 1., 0., 0., 11.904, 0., 256.; 195,/REG,TMHYS,{Temperaturhysterese},6,0,{grad C},2,6, 0., 40.146 /REP, 1., 0., 0., 0.6691, 0., 0.; 196,/REG,TMPEBO,{Ebox-Temperatur},1,3,{grad C},3,6,-50., 150. /REP, 0., 0., 0., 0., 0., 0.; 197,/REG,TMSRC,{Main1-Zeitraster fuer MSR},6,0,{s},3,6, 0., 777.093 /REP, 1., 0., 0., 3.04742, 0., 0.; 198,/REG,TNMAXD,{Ueberwachungszeit fuer NMAXD},6,0,{s},1,6, 0., 3.03552 /REP, 84.0054, 0., 0., 1., 0., 0.; 199,/REG,TPSV,{Zeitumrechnung 1 Ink. entspricht 0.0238 s },6,0,{s},1,6, 0., 6.07104 /REP, 1., 0., 0.,0.023808, 0., 0.; 200,/REG,TRSE,{Verzoegerungszeit fuer Lambda-Sonden, Betriebsbereitschaft},6,0,{S},2,6 0., 12.24 /REP, 1., 0., 0.,0.048, 0., 0.; 201,/REG,TSKOR_QT2,{Segmentdauerkorrektur},6,0,{us},3,6,-192., 190.5 /REP, 1., 0., 0., 1.5, 128., 0.; 202,/REG,TSTD,{Standard-AbregeLzeit},6,0,{s},3,6, 3.04742, 780.141 /REP, 1., 0., 0., 3.04742,-1., 0.; 203,/REG,TSTD1,{Zeitumrechnung 1 Ink. entspricht 256*TMESS},6,0,{s},3,6, 0., 777.093 /REP, 1., 0., 0., 3.04742, 0., 0.; 204,/REG,TS_QT2,{Segmentdauerkorrektur},6,0,{us},3,6, 0., 382.5 /REP, 1., 0., 0., 1.5, 0., 0.; 205,/REG,TV_128,{Zeitumrechnung 1 Ink. entspricht TMESS},6,0,{ms},4,4,-1523.71, 1511.81 /REP, 1., 0., 0., 11.904, 128., 0.; 206,/REG,TV_LR,{Zeitumrechnung 1 Ink. entspricht TMESS},6,0,{ms},4,5, 0., 1511.81 /REP, 1., 0., 0., 11.904, 0., 0.; 207,/REG,TWH,{Wiederholzeit},6,0,{s},3,6, 0., 153. /REP, 1., 0., 0., 0.6, 0., 0.; 208,/REG,TZMLTE,{Zeitkonstante für ML-Filter TEB},6,0,{s},2,6, 0.19608, 50. /REP, 0., 1000., 20., 0., 0., 0.; 209,/REG,T_0125,{Zeitumrechnung 1 Ink. entspricht 0.0125/ (%*s)},6,0,{%*s},1,6, 0. 3.1875 /REP, 1., 0., 0.,0.0125, 0., 0.; 210,/REG,T_100TCONV,{Zeitumrechnung 1 Ink. entspricht 0.600 s},6,0,{s},3,6, 0., 153. /REP, 1., 0., 0., 0.6, 0., 0.; 211,/REG,T_1024TCON,{Zeitumrechnung 1 Ink. entspricht 6.144 s},6,0,{s},4,6, 0., 1566.72 /REP, 1., 0., 0., 6.144, 0., 0.; 212,/REG,T_12_MS,{Zeitumrechnung 1 Ink. entspricht 12 ms},6,0,{ms},4,6, 0., 3035.52 /REP, 1., 0., 0., 11.904, 0., 0.; 213,/REG,T_12_MS_1,{Zeitumrechnung 1 Ink. entspricht 12 ms threshold: [1...FF]},6,0,{ms},4 6, 11.904, 3035.52 /REP, 1., 0., 0., 11.904, 0., 0.; 214,/REG,T_12_MS_2,{Zeitumrechnung 1 Ink. entspricht 12 ms threshold: [1...1]},6,0,{ms},2 6, 11.904, 11.904 /REP, 1., 0., 0., 11.904, 0., 0.; 215,/REG,T_12_MS_3,{Zeitumrechnung 1 Ink. entspricht 12 ms threshold: [8...FF]},6,0,{ms},4 6, 95.232, 3035.52 /REP, 1., 0., 0., 11.904, 0., 0.; 216,/REG,T_12_MS_4,{Zeitumrechnung 1 Ink. entspricht 12 ms threshold: [1...2]},6,0,{ms},2 6, 11.904, 23.808 /REP, 1., 0., 0., 11.904, 0., 0.; 217,/REG,T_12_MS_5,{Zeitumrechnung 1 Ink. entspricht 12 ms threshold: [9...FF]},6,0,{ms},4 6, 107.136, 3035.52 /REP, 1., 0., 0., 11.904, 0., 0.; 218,/REG,T_1536TCON,{Zeitumrechnung 1 Ink. entspricht 9.216 s},6,0,{s},4,6, 0., 2350.08 /REP, 1., 0., 0., 9.216, 0., 0.; 219,/REG,T_16TM_O12,{Zeitumrechnung 1 Ink. entspricht 0.190 s mit Offset 128},6,0,{s},2,6 -24.3794, 24.1889 /REP, 1., 0., 0., 0.19046, 128., 0.; 220,/REG,T_1_SEC,{1s Raster},6,0,{sec},3,4, 0., 255. /REP, 1., 0., 0., 1., 0., 0.; 221,/REG,T_2048TCON,{Zeitumrechnung 1 Ink. entspricht 12.29 s},6,0,{s},4,6, 0., 3133.44 /REP, 1., 0., 0., 12.288, 0., 0.; 222,/REG,T_24,{Zeitumrechnung 1 Ink. entspricht 24 ms},6,0,{ms},4,6, 23.808, 6071.04 /REP, 1., 0., 0., 23.808, 0., 0.; 223,/REG,T_24_MS,{Zeitumrechnung 1 Ink. entspricht 24 ms},6,0,{s},1,6, 0., 6.07104 /REP, 1., 0., 0.,0.023808, 0., 0.; 224,/REG,T_256TCONV,{Zeitumrechnung 1 Ink. entspricht 1.536 s},6,0,{s},3,6, 0., 391.68 /REP, 1., 0., 0., 1.536, 0., 0.; 225,/REG,T_2TCONV,{Zeitumrechnung 1 Ink. entspricht 0.0120 s},6,0,{s},1,6, 0., 3.06 /REP, 1., 0., 0.,0.012, 0., 0.; 226,/REG,T_2TM,{Zeitumrechnung 1 Ink. entspricht 2 * 0.0119 s },6,0,{s},1,6, 0., 6.07104 /REP, 1., 0., 0.,0.023808, 0., 0.; 227,/REG,T_3060_MS,{3.06 s timer - 1 inc. = 3060 ms},6,0,{s},3,6, 0., 780.3 /REP, 1., 0., 0., 3.06, 0., 0.; 228,/REG,T_3060_WFS,{3.06 s timer - 1 inc. = 3060 ms},6,0,{s},3,6, 0., 599.76 /REP, 1., 0., 0., 3.06, 0., 0.; 229,/REG,T_3072_MS,{Zeitumrechnung 1 Ink. entspricht 3.072 s},6,0,{s},3,6, 0., 783.36 /REP, 1., 0., 0., 3.072, 0., 0.; 230,/REG,T_32D,{Zeitumrechnung 1 Ink. entspricht 0.25 hPa},6,0,{hPa},2,6,-32., 31.75 /REP, 1., 0., 0., 0.25, 0., 256.; 231,/REG,T_32D2,{Zeitumrechnung 1 Ink. entspricht 0.25 hPa},6,0,{hPa},2,6, 0., 31.75 /REP, 1., 0., 0., 0.25, 0., 256.; 232,/REG,T_32E_6,{Zeitumrechnung 1 Ink. entspricht 0.032 ms},6,0,{ms},1,6, 0., 8.16 /REP, 1., 0., 0.,0.032, 0., 0.; 233,/REG,T_32E_6B,{Zeitumrechnung 1 Ink. entspricht 0.032 ms},6,0,{ms},1,6, 1.984, 8.16 /REP, 1., 0., 0.,0.032, 0., 0.; 234,/REG,T_32TCONV,{Zeitumrechnung 1 Ink. entspricht 0.192 s},6,0,{s},2,6, 0., 48.96 /REP, 1., 0., 0., 0.192, 0., 0.; 235,/REG,T_32TCONV2,{Zeitumrechnung 1 Ink. entspricht 0.192 s},6,0,{s},2,6, 0., 49.152 /REP, 1., 0., 0., 0.192, 0., 0.; 236,/REG,T_48_MS,{Zeitumrechnung 1 Ink. entspricht 48 ms},6,0,{s},2,6, 0., 12.1421 /REP, 1., 0., 0.,0.047616, 0., 0.; 237,/REG,T_4E_2,{Zeitumrechnung 1 Ink. entspricht 0.040 s},6,0,{s},2,6, 0., 10.2 /REP, 1., 0., 0.,0.04, 0., 0.; 238,/REG,T_4E_3,{Zeitumrechnung 1 Ink. entspricht 0.004 s},6,0,{s},1,6, 0., 1.02 /REP, 1., 0., 0., 0.40000E-2, 0., 0.; 239,/REG,T_4TM,{Zeitumrechnung 1 Ink. entspricht 0.0476 s},6,0,{s},2,6, 0., 12.1421 /REP, 1., 0., 0.,0.047616, 0., 0.; 240,/REG,T_4TMS,{Zeitumrechnung 1 Ink. entspricht 0.0476 s},6,0,{s},2,6, 0.47616, 12.1421 /REP, 1., 0., 0.,0.047616, 0., 0.; 241,/REG,T_50E_3,{Zeitumrechnung 1 Ink. entspricht 5*tmess},6,0,{s},2,6, 0., 15.1776 /REP, 1., 0., 0.,0.05952, 0., 0.; 242,/REG,T_5S,{Zeitumrechnung 1 Ink. entspricht 5/256 s},6,0,{s},1,6, 0., 4.98047 /REP, 1., 0., 0.,0.019531, 0., 0.; 243,/REG,T_64E_6,{Zeitumrechnung 1 Ink. entspricht 0.064 ms},6,0,{ms},2,6, 0., 16.32 /REP, 1., 0., 0.,0.064, 0., 0.; 244,/REG,T_80E_3,{Zeitumrechnung 1 Ink. entspricht 80 ms},6,0,{s},2,6, 0., 20.4 /REP, 1., 0., 0.,0.08, 0., 0.; 245,/REG,T_80S,{Zeitumrechnung 1 Ink. entspricht 0.32s},6,0,{s},2,6, 0., 81.6 /REP, 1., 0., 0., 0.32, 0., 0.; 246,/REG,T_80S_2,{Zeitumrechnung 1 Ink. entspricht 0.32s},6,0,{s},2,6, 0., 81.92 /REP, 1., 0., 0., 0.32, 0., 0.; 247,/REG,T_8TCONV,{Zeitumrechnung 1 Ink. entspricht 0.0480 s},6,0,{s},2,6, 0., 12.24 /REP, 1., 0., 0.,0.048, 0., 0.; 248,/REG,T_9180_MS,{9.18 s timer - 1 inc. = 9180 ms},6,0,{s},4,6, 9.18, 2340.9 /REP, 1., 0., 0., 9.18, 0., 0.; 249,/REG,T_96_16MS,{Zeitumrechnung 1 Ink. entspricht 96 ms},6,0,{s},4,6, 0., 6241.03 /REP, 1., 0., 0.,0.095232, 0., 0.; 250,/REG,T_96_2MS,{Zeitumrechnung 1 Ink. entspricht 96 ms},6,0,{s},2,6, 0., 24.3794 /REP, 1., 0., 0.,0.095232, 0., 0.; 251,/REG,T_96_MS,{Zeitumrechnung 1 Ink. entspricht 96 ms},6,0,{s},2,6, 0., 24.2842 /REP, 1., 0., 0.,0.095232, 0., 0.; 252,/REG,T_96_MSA,{Zeitumrechnung 1 Ink. entspricht 96 ms ( >0 )},6,0,{s},2,6,0.095232 24.2842 /REP, 1., 0., 0.,0.095232, 0., 0.; 253,/REG,T_9S,{Zeitumrechnung 1 Ink. entspricht 9 s},6,0,{s},4,6, 0., 2295. /REP, 1., 0., 0., 9., 0., 0.; 254,/REG,T_TM100,{Zeitumrechnung 1 Ink. entspricht 100ms},6,0,{s},2,5, 0., 30.3552 /REP, 1., 0., 0., 0.11904, 0., 0.; 255,/REG,T_TM16_O12,{Zeitumrechnung 1 Ink. entspricht 0.744E-3 s mit Offset 128*256},6,0 {s},2,6,-24.3794, 24.3786 /REP, 16., 0., 0.,0.011904, 32768., 0.; 256,/REG,T_TM2_O128,{Zeitumrechnung 1 Ink. entspricht (0.0119 / 2) s mit Offset 128},6,0,{s} 1,6,-0.76186, 0.7559 /REP, 2., 0., 0.,0.011904, 128., 0.; 257,/REG,T_TM_O128,{Zeitumrechnung 1 Ink. entspricht 0.0119 s mit Offset 128},6,0,{s},1,6 -1.52371, 1.51181 /REP, 1., 0., 0.,0.011904, 128., 0.; 258,/REG,U5VQ,{5V Spannung quantisiert in (5000/256)mV},6,0,{mV},4,6, 0., 4980.47 /REP, 1., 0., 0., 19.5313, 0., 0.; 259,/REG,UB,{Batteriespannung},6,0,{V},2,6, 0., 17.537 /REP, 1., 0., 0.,0.07043, 0., 0.; 260,/REG,UHLSO,{1 Volt an Shunt},6,0,{V},1,6, 0., 4.98047 /REP, 1., 0., 0.,0.019531, 0., 0.; 261,/REG,UNTC,{Eingangspannung NTC},6,0,{V},1,6, 0., 4.98047 /REP, 51.2, 0., 0., 1., 0., 0.; 262,/REG,UPO,{Ausgangspannung CO-Poti},6,0,{V},1,6, 0., 4.98047 /REP, 51.2, 0., 0., 1., 0., 0.; 263,/REG,UPUV,{Up/Uv - Werte},6,0,{-},1,6, 0., 0.99609 /REP, 1., 0., 0., 0.39062E-2, 0., 0.; 264,/REG,USON,{Spannungsschwelle Sondenueberwachung},6,0,{V},1,6,-0.17578, 1.06934 /REP, 256., 0., 0., 1.25, 36., 0.; 265,/REG,USOND,{Spannungsschwelle Sondenueberwachung},6,0,{V},1,6,-0.17578, 1.06934 /REP, 256., 0., 0., 1.25, 36., 0.; 266,/REG,USSAM,{Monitoring the oxygen sensor voltage limits},6,0,{V},1,5,-0.17722 1.07278 /REP,-4., 4.2911, 0.,0.019608, 0., 0.; 267,/REG,U_8B_ADC,{Kennlinie 8-Bit-ADC},1,4,{V},1,6, 0., 4.9707 /REP, 0., 0., 0., 0., 0., 0.; 268,/REG,U_LAMP,{Lambdasondenspannungsamplitude},6,0,{V},1,5, 0., 1.25 /REP, 4., 0., 0.,0.019608, 0., 0.; 269,/REG,U_LSON,{Lambdasondenspannung},6,0,{V},1,5,-0.17722, 1.07278 /REP, 4., 0.7089, 0.,0.019608, 0., 0.; 270,/REG,U_LSONX,{erweiterte Lambdasondenspannung},6,0,{V},1,5,-0.7089, 0.5411 /REP, 4., 2.8356, 0.,0.019608, 0., 0.; 271,/REG,VOL,{Volumenstrom},6,0,{m^3/h},1,5, 0., 6.63 /REP, 1., 0., 0.,0.026, 0., 0.; 272,/REG,WDK,{Drosselklappenwinkel},6,0,{grad DK},2,6, 0., 95.8333 /REP, 230.4, 0., 0., 96., 0., 0.; 273,/REG,WDK256,{Drosselklappenwinkel (fuer Dummy-Source)},6,0,{grad DK},3,6, 0., 106.667 /REP, 230.4, 0., 0., 96., 0., 0.; 274,/REG,WDK_OB,{Drosselklappenwinkel fuer Turbokennfelder},6,0,{grad DK},3,6, 13.3333 119.583 /REP, 230.4, 0., 0., 96.,-32., 0.; 275,/REG,WDK_OF,{Drosselklappenwinkel mit Offset},6,0,{grad DK},2,6,0.083333, 95.9167 /REP, 230.4, 0., 0., 96., 12.8, 0.; 276,/REG,WDK_ZWD,{Drosselklappenwinkel},6,0,{grad DK},2,6, 4.16667, 95.8333 /REP, 230.4, 0., 0., 96., 0., 0.; 277,/REG,WF,{fuel wall film-curve},6,0,{ms/NWU},3,6, 0., 783.36 /REP, 1., 0., 0., 3.072, 0., 0.; 278,/REG,WSEFI,{Angle values ??for SEFI},6,0,{grad KW},3,6,-2., 574. /REP,-1., 574., 0., 6., 0., 0.; 279,/REG,ZAHN,{quantisierung 1 geberradzahn (:= 6 grad KW)},6,0,{grad KW},4,6, 0., 1530. /REP, 1., 0., 0., 6., 0., 0.; 280,/REG,ZDG_R,{zuendraster im MAIN: q= ZDG_R (systemkonstante)},6,0,{ Zündungen},5,6, 0. 10200. /REP, 1., 0., 0., 40., 0., 0.; 281,/REG,ZDG_R2,{zuendraster im MAIN: q= 2*ZDG_R (systemkonstante)},6,0,{ Zündungen},5,6 0., 20400. /REP, 1., 0., 0., 80., 0., 0.; 282,/REG,ZD_KHAN,{delta Zeitkonstante negativ},6,0,{-},0,6, 0.,0.0153 /REP, 1., 0., 0., 0.60000E-4, 0., 0.; 283,/REG,ZD_KHAP,{delta Zeitkonstante positiv},6,0,{-},-2,6, 0., 0.48450E-3 /REP, 1., 0., 0., 0.19000E-5, 0., 0.; 284,/REG,ZFTSVK,{Anzahl der Periodendauerwerte fuer Mittelung DLSA},6,0,{ },3,6, 1., 255. /REP, 0., 255., 1., 0., 0., 0.; 285,/REG,ZKHA,{Zeitkonstante Höhenadaption},6,0,{sec},0,6, 0.,0.028305 /REP, 1., 0., 0., 0.11100E-3, 0., 0.; 286,/REG,ZKSA,{time-constant current limiting boost hysteresis DNSA},6,0,{s},2,6, 0., 61.2 /REP, 40., 0., 0., 9.6, 0., 0.; 287,/REG,ZLRHK4,{Zeitkonstante des Integralanteils fuer LR behind cat},6,0,{ms/s},2,3, 0. 29.6438 /REP, 51.2, 0., 0., 5.952, 0., 0.; 288,/REG,ZLRHK6,{Time constant of the integral term for LR behind cat},6,0,{ms/s},2,4 0.061035, 15.564 /REP, 262144., 0., 0., 16000., 0., 0.; 289,/REG,ZWOF,{Firing angle with offset},6,0,{grad KW},2,6,-22.5, 75. /REP, 1., 0., 0., 0.75, 30., 0.; 290,/REG,ZWON,{Firing angle without offset},6,0,{grad KW},3,6, 0., 191.25 /REP, 1., 0., 0., 0.75, 0., 0.; 291,/REG,ZWONN,{Firing angle without offset negative},6,0,{grad KW},3,6,-191.25, 0. /REP,-1., 0., 0., 0.75, 0., 0.; 292,/REG,ZWONN256,{Firing angle without offset negative},6,0,{grad KW},3,6,-192., 0. /REP,-1., 0., 0., 0.75, 0., 0.; 293,/REG,ZWOUT,{Zuendwinkel output},6,0,{grad KW},2,6,-24.75, 78. /REP,-1., 78., 0., 0.75, 0., 0.; 294,/REG,ZWSPAE,{Zuendwinkel-Korrektur},6,0,{Grad KW},2,6, 0., 95.625 /REP, 255., 0., 0., 95.625, 0., 0.; 295,/REG,ZWVERST,{Zuendwinkel - adjustment},6,0,{Grad KW},2,6,-90., 90. /REP,-1., 0., 0., 0.75, 0., 256.; 296,/REG,ZWVERSTP,{Ignition angle adjustment: positive},6,0,{grad KW},2,6,-90., 90. /REP, 1., 0., 0., 0.75, 0., 256.; 297,/REG,ZYLZAHL,{fuer zuendraster im BTN: q= anzahl zylinder},6,0,{Zündungen},4,6, 0. 1280. /REP, 1., 0., 0., 5., 0., 0.; 1,/VTB,B_XSTAT,10,7 /VWP,0,{TL},1,{VL},2,{LL},4,{ST},6,{ST},8,{SA},10,{SA}; 2,/VTB,YES_NO,10,2 /VWP,0,{nein},1,{ja}; 3,/VTB,OK_NOK,10,2 /VWP,0,{ok},1,{nicht ok}; 1,/TAB,HOEHE,1,2 /WP,0, 1130.8,255, 562.6; 2,/TAB,SLP_ENA,2,2 /WP,0, 0.,255, 255.; 3,/TAB,TMPEBO,1,21 /WP,61,-50.,66,-40.,76,-20.,85, 0.,95, 20.,104, 40.,114, 60.,119, 70.,121, 75.,123, 80. 125, 85.,127, 90.,129, 95.,131, 100.,133, 105.,135, 110.,137, 115.,139, 120.,142, 130.,146 140.,150, 150.; 4,/TAB,U_8B_ADC,1,3 /WP,0, 0.,1, 0.9765624E-2,255, 4.9707031; 1,/SRC,DKATIX,{Index fuer Amplitudenverhaeltnis [register]},$0000,1,10,2,2; 2,/SRC,DLASHKI,{required for KLLARHx},$0031,1,14,1,2; 3,/SRC,DMLFTEF,{Zwischensource für TEB [register]},$0000,1,108,2,2; 4,/SRC,FKMLMA,{HFM-Korrekturfaktor High-Byte [overlay]},$002E,1,54,1,2; 5,/SRC,FTEFVA,{Zwischensource für TEB [register]},$0000,1,109,2,2; 6,/SRC,KL_NR,{schaltanzeige, gangerkennung (fest-KL) [dummy]},$0000,1,9,1,2; 7,/SRC,M16,{Luftmasse},$0097,1,106,1,2; 8,/SRC,M16FZLAAF,{ZLAAF-gefiltertes M16 [overlay f. cdate]},$0034,1,106,1,2; 9,/SRC,M16_256,{Luftmasse},$0097,1,107,2,2; 10,/SRC,N,{Drehzahl},$003B,1,120,1,2; 11,/SRC,N10_256,{Drehzahl q=10upm fuer 17er-FKL [dummy]},$003C,1,123,1,2; 12,/SRC,N2,{Drehzahl fuer 17er fest-KL [dummy]},$003B,1,124,2,2; 13,/SRC,NDEL,{LLR Regelabweichung (NLLM-N) [register]},$0000,1,121,2,2; 14,/SRC,NGRAD,{Drehzahlgradient},$0088,1,125,2,2; 15,/SRC,NMOT,{Drehzahl},$003B,1,127,2,2; 16,/SRC,OTVLR,{TV time (lamda dead time) [cdate overlay]},$0035,1,192,1,2; 17,/SRC,Q16,{Luftmasse},$0097,1,135,1,2; 18,/SRC,TI_H,{TI - Wert HOB},$006E,1,176,2,2; 19,/SRC,TL,{load},$0040,1,180,1,2; 20,/SRC,TL2B,{load},$0040,1,180,2,2; 21,/SRC,TLWF,{last fuer wandfilmkennlinie (dummy fuer FKL)},$0000,1,185,2,2; 22,/SRC,TMOT,{Motortemperatur},$0038,1,168,1,2; 23,/SRC,TMOT2,{Motortemperatur f. fest-KL uebergangskompensation [dummy]},$0038,1,169,2,2; 24,/SRC,TMOT2B,{Motortemperatur},$0038,1,168,2,2; 25,/SRC,UB,{Batteriespannung},$0036,1,259,1,2; 26,/SRC,UB2B,{Batteriespannung},$0036,1,259,2,2; 27,/SRC,USHK_I,{required for KLUSLA},$0030,1,269,1,2; 28,/SRC,VMESS,{Geschwindigkeit},$00B7,1,150,2,2; 29,/SRC,X2ZDG_R,{zuendungen: 2*ZDG_R},$FF4F,1,281,2,3; 30,/SRC,XAVKATF,{faktor amplitudenverhaeltnis vK/hK},$F9D5,1,79,2,3; 31,/SRC,XAZKH,{zuendzaehler ab LL=1->0 mit q=ZYLZAHL},$FCD8,1,297,2,3; 32,/SRC,XDTLUE,{delta TL ueber TUEDTL*12ms},$F8B1,1,180,2,3; 33,/SRC,XDTLW,{delta TLW (KF) over 12ms, positive source limited!},$F9FF,1,21,2,3; 34,/SRC,XFALMIT,{Sum of the ZW-late shows [register]},$FA84,1,292,2,3; 35,/SRC,XFR2,{Lambdaintegrator [dummy]},$0000,1,71,2,3; 36,/SRC,XFTEFVAB,{Spülratenbegrenzung},$F85B,1,53,2,3; 37,/SRC,XFTEFVAH,{Spülratenbegrenzung},$F84F,1,79,2,3; 38,/SRC,XGKOMP,{Kompentsationsgradient},$FDAA,1,80,2,3; 39,/SRC,XGUDAUF,{Unterdruckaufbaugradient},$FDAC,1,62,2,3; 40,/SRC,XKSTAA,{startadaptionsfaktor},$FA92,1,51,2,3; 41,/SRC,XQLLS,{Air mass flow through bypass controller},$F8D6,1,138,2,3; 42,/SRC,XTANS,{Ansaugluft-Temperatur},$F868,1,171,2,3; 43,/SRC,XTDTETVH,{Steuertimer DTES},$FDCB,1,250,2,3; 44,/SRC,XTE_H,{te im startbereich B1 fuer erstspritzmuster [doppelbel.]},$FFE3,1,178,2,3; 45,/SRC,XTLW,{next load signal},$F92B,1,181,2,3; 46,/SRC,XTMOTST,{Motortemperatur für Fest-KL. bei Start},$F866,1,169,2,3; 47,/SRC,XTWH,{Aufregelzeit bei Wiederholstart [dummy] (Abstellzeit Kl15aus -> Kl15ein)},$FAB2,1,227,2,3; 48,/SRC,XWDKBL,{DK-angle relative to LL [overlay]},$F923,1,272,2,3; 49,/SRC,XWDKBL2,{DK-Winkel fuer EDHFM [dummy]},$F923,1,273,2,3; 50,/SRC,XWDKOB,{DK-Winkel für Turbo-Kennfelder},$FFDC,1,274,2,3; 51,/SRC,XWDKVG,{virtueller DK-Winkel gesamt},$F8D5,1,272,2,3; 52,/SRC,XZDCTRABS,{ignitions from launching with q = ZDG_R (z.B. 40)},$FCC0,1,280,2,3; 53,/SRC,X_ACPRESS,{Air conditioning pressure},$F970,1,2,2,3; 54,/SRC,X_FDKHABH,{height-limited adaptation factor (high_byte)},$F8CE,1,51,2,3; 55,/SRC,X_GSTBIN,{Hexwert in Dezimalwert getriebeeingriff [dummy]},$FAFF,1,87,2,3; 56,/SRC,X_NGST,{Drehzahl-Stuetzstellen-Nr. getriebeeingriff [dummy]},$FAFD,1,126,2,3; 57,/SRC,X_SCHAST,{detected output},$FA94,1,9,2,3; 58,/SRC,ZUENZAE,{Anzahl der Zuendungen},$005E,1,10,2,2; /UMP,%UR_RAM1,ASB,{ für VS100: ASB (LOB,HOB) |Faktor 1 entspr. 2^15|},$FB5B,514,45,F32ZAD,3,$FFFF,K; /UMP,%UR_RAM1,ASC,{ für VS100: ASC (LOB,HOB) |Faktor 1 entspr. 2^15|},$FB5F,514,45,F32ZAD,3,$FFFF,K; /UMP,%UR_RAM1,ASD,{ für VS100: ASD (LOB,HOB) |Faktor 1 entspr. 2^15|},$FB63,514,45,F32ZAD,3,$FFFF,K; /UMP,%UR_RAM1,ASE,{ für VS100: ASE (LOB,HOB) |Faktor 1 entspr. 2^15|},$FB67,514,45,F32ZAD,3,$FFFF,K; /UMP,%UR_RAM1,ASEF,{Aussetzer-Erkennungs Fetch-Pointer},$00C4,1,9,DEZ,2,$00FF,K; /UMP,%UR_RAM1,ATV,{ aktueller Lernkennfeldwert: Regelfaktor der Lambdaregelung h.K},$FBC5,258,255,T_TM16_O12,3,$FFFF K; /UMP,%UR_RAM1,AVADZ,{DASE: number of burns in SA for adaptation},$00C7,1,9,DEZ,2,$00FF,K; /UMP,%UR_RAM1,AVKATA,{ = xavkat without compensation ( kldktml, kldkttv )},$F9D8,1,60,FKT256,3,$00FF,K; /UMP,%UR_RAM1,AVKATF,{ = XAVKAT but with TP filter ( ZAVKAT ) },$F9D5,1,60,FKT256,3,$00FF,K; /UMP,%UR_RAM1,CHNL_A,{ Adresse der Datenausgabe für Raster A},$FBE0,264,9,DEZ,3,$00FF,K; /UMP,%UR_RAM1,CHNL_B,{ Adresse der Datenausgabe für Raster B},$FBE8,276,9,DEZ,3,$00FF,K; /UMP,%UR_RAM1,CRCH_B,{Stall recognition: Buffer HOB CC0},$006B,1,9,DEZ,2,$00FF,K; /UMP,%UR_RAM1,CT_1MS,{Freilaufender 1ms-Zähler},$004D,1,9,DEZ,2,$00FF,K; /UMP,%UR_RAM1,DAV,{ Differenz des Lambdaamplitudenquotienten zum Grenzwert},$F9C8,1,83,FSGN128,3,$00FF,K; /UMP,%UR_RAM1,DFRDTE,{ Regelfaktoraenderung: FR - FRDTER},$FDC8,1,83,FSGN128,3,$00FF,K; /UMP,%UR_RAM1,DIS_TI,{flagbyte},$002B,1,9,DEZ,2,$00FF,K; /UMP,%UR_RAM1,DKATTIMER,{stop time for dkat ( derived from B_LL transient +-)},$F9DE,1,251,T_96_MS,3,$00FF,K; /UMP,%UR_RAM1,DLASHKB,{ = KLLARHx},$FBCB,1,60,FKT256,3,$00FF,K; /UMP,%UR_RAM1,DNSA,{Time dependent boost hysteresis |umr:nmot|},$0087,1,120,N,2,$00FF,K; /UMP,%UR_RAM1,DTES_A,{},$FDA0,1,9,DEZ,3,$00FF,K; /UMP,%UR_RAM1,DTES_E,{ Bis hier her werden alle DTES-RAMs bei LL <> 1},$FDCB,1,9,DEZ,3,$00FF,K; /UMP,%UR_RAM1,DTLDLE,{ Verhältnis TL/XTLWKF |umr. FKT12},$FAFB,1,51,FKT128,3,$00FF,K; /UMP,%UR_RAM1,DTLW,{delta-TLW, source ist eventuell das gefilterte},$F9FF,1,22,DTLW_SGN,3,$00FF,K; /UMP,%UR_RAM1,DZWDYV,{DYVH ignition angle correction |umr:ZWON(N),je nach vorz|},$00BA,1,291,ZWONN,2,$00FF,K; /UMP,%UR_RAM1,DZWUEF,{delta ignition angle over output function |umr: ZWONN|},$0039,1,291,ZWONN,2,$00FF,K; /UMP,%UR_RAM1,DZW_KR,{ KR-ignition-Corr.val |umr:ZWON, 0.75 gradKW|},$0010,1,291,ZWONN,2,$00FF,K; /UMP,%UR_RAM1,EREIGWD,{SW-event watchdog: reinit at main-start also},$0037,1,9,DEZ,2,$00FF,K; /UMP,%UR_RAM1,ER_Z,{Event counter for fuer toothinterrupt},$004C,1,9,DEZ,2,$00FF,K; /UMP,%UR_RAM1,FALLT,{KR: temporary memory instance depth |umr: ZWONN|},$009F,1,291,ZWONN,2,$00FF,K; /UMP,%UR_RAM1,FBAKL,{faktor BA (L+K-anteil) |q=8/256*16/256*2|},$F9EF,258,67,FKT2_2_2B,3,$FFFF,K; /UMP,%UR_RAM1,FBANS,{afterstart factor in BA (filtered) |q_hi= 8/256|},$F9FB,1,68,FKT32,3,$00FF,K; /UMP,%UR_RAM1,FBAW,{faktor BA DK-anteil |q=8/256*32/256*2|},$F9F7,258,56,FKT1_2_2B,3,$FFFF,K; /UMP,%UR_RAM1,FDKHAB,{ Faktor DK-Höhenadaption begrenzt High-Byte |umr:fkt128|},$F8CE,1,51,FKT128,3,$00FF,K; /UMP,%UR_RAM1,FESB1,{ für VS100: FESB1 (LOB,HOB) |Faktor 1 entspr. 2^15|},$FB6B,514,45,F32ZAD,3,$FFFF,K; /UMP,%UR_RAM1,FESB2,{ für VS100: FESB2 (LOB,HOB) |Faktor 1 entspr. 2^15|},$FB6F,514,45,F32ZAD,3,$FFFF,K; /UMP,%UR_RAM1,FLAG01,{flagbyte},$0022,1,9,DEZ,2,$00FF,K; /UMP,%UR_RAM1,FLAG02,{flagbyte},$0023,1,9,DEZ,2,$00FF,K; /UMP,%UR_RAM1,FLAG1,{flagbyte},$0025,1,9,DEZ,2,$00FF,K; /UMP,%UR_RAM1,FLAG2,{flagbyte},$0026,1,9,DEZ,2,$00FF,K; /UMP,%UR_RAM1,FLAG3,{flagbyte},$0027,1,9,DEZ,2,$00FF,K; /UMP,%UR_RAM1,FLAG4,{flagbyte},$0028,1,9,DEZ,2,$00FF,K; /UMP,%UR_RAM1,FLAG5,{flagbyte},$0029,1,9,DEZ,2,$00FF,K; /UMP,%UR_RAM1,FLAG6,{flagbyte},$002A,1,9,DEZ,2,$00FF,K; /UMP,%UR_RAM1,FLAGBM,{flagbyte},$0024,1,9,DEZ,2,$00FF,K; /UMP,%UR_RAM1,FRMN,{ Minimalwert des Regelfaktors der LR |fkt128|},$F828,1,51,FKT128,3,$00FF,K; /UMP,%UR_RAM1,FR_SYN,{Flagregister fuer Syncro-Programm},$009B,1,9,DEZ,2,$00FF,K; /UMP,%UR_RAM1,FSTAUK,{wichtungsfaktor aus STADAP |fkt128|},$F9FE,1,51,FKT128,3,$00FF,K; /UMP,%UR_RAM1,FVAKL,{faktor VA (L+K-anteil) |q=8/256*16/256|},$F9F1,258,66,FKT2_2B,3,$FFFF,K; /UMP,%UR_RAM1,FVANS,{nachstartfktor bei BA |q= 8/256|},$F9FD,1,68,FKT32,3,$00FF,K; /UMP,%UR_RAM1,FVAW,{faktor VA DK-anteil |q=8/256*32/256|},$F9F9,258,55,FKT1_2B,3,$FFFF,K; /UMP,%UR_RAM1,FZABG,{Misfire Counter Cylinder selective Emissions Relevant.},$00BF,1,9,DEZ,2,$00FF,K; /UMP,%UR_RAM1,FZABG2,{[2-6 sind dummy-symbole fuer VS100]},$00C0,1,9,DEZ,2,$00FF,K; /UMP,%UR_RAM1,FZABG3,{},$00C1,1,9,DEZ,2,$00FF,K; /UMP,%UR_RAM1,FZABG4,{},$00C2,1,9,DEZ,2,$00FF,K; /UMP,%UR_RAM1,FZABG5,{},$00C3,1,9,DEZ,2,$00FF,K; /UMP,%UR_RAM1,FZKATS_H,{Summe Kat-schädigender Fehler HOB},$00BD,258,11,DEZ_16,2,$FFFF,K; /UMP,%UR_RAM1,FZKATS_L,{Summe Kat-schädigender Fehler HOB},$00BE,1,9,DEZ,2,$00FF,K; /UMP,%UR_RAM1,GEBRAD_A,{},$FB4C,1,9,DEZ,3,$00FF,K; /UMP,%UR_RAM1,GEBRAD_E,{},$FB71,1,9,DEZ,3,$00FF,K; /UMP,%UR_RAM1,HFKORR,{te-Gesamtkorrekturfaktor (High) (-> Synchro)},$005B,258,9,DEZ,2,$FFFF,K; /UMP,%UR_RAM1,HMLC,{load detection: sample counter},$00A1,1,9,DEZ,2,$00FF,K; /UMP,%UR_RAM1,HMLH,{load detection: Air mass integrator High},$00A2,1,9,DEZ,2,$00FF,K; /UMP,%UR_RAM1,HMLL,{load detection: Air mass integrator Low},$00A4,1,9,DEZ,2,$00FF,K; /UMP,%UR_RAM1,HMLM,{load detection: Air mass integrator Middle},$00A3,1,9,DEZ,2,$00FF,K; /UMP,%UR_RAM1,IMLKAPR,{.#*>UR [M_AIRM43] ;ML-Integrator with fmlkama compensation},$FBDC,258,116,M_AIRM43,3,$FFFF,K; /UMP,%UR_RAM1,IZ_AZKOAS,{Counter for AC off after starting |umr:zdg_r|},$00B9,1,9,DEZ,2,$00FF,K; /UMP,%UR_RAM1,KFABAK,{aufteilungsfaktor wandfilm bei BA |fkt256|},$F9EB,1,60,FKT256,3,$00FF,K; /UMP,%UR_RAM1,KFAVAK,{aufteilungsfaktor wandfilm bei VA |fkt256|},$F9EC,1,60,FKT256,3,$00FF,K; /UMP,%UR_RAM1,KRFLG1,{flagbyte},$002C,1,9,DEZ,2,$00FF,K; /UMP,%UR_RAM1,KRFLG2,{flagbyte},$002D,1,9,DEZ,2,$00FF,K; /UMP,%UR_RAM1,LAHK,{ Sollwert für linearisierte Spannung behind catalysator},$FBBF,1,101,LAHKUMR,3,$00FF,K; /UMP,%UR_RAM1,LASHK,{ linearisierte Spannung behind catalysator},$FBD6,1,101,LAHKUMR,3,$00FF,K; /UMP,%UR_RAM1,LASHKM,{ gefilterter LASHK},$FBD2,1,101,LAHKUMR,3,$00FF,K; /UMP,%UR_RAM1,LASIGCNT,{ = counter for avarage value: ushkm ( high,low)},$FBD0,258,9,DEZ,3,$FFFF,K; /UMP,%UR_RAM1,LASIGSUM,{ = addded xlahk ( periode: LR ((+ p-part) til ( + p-part ))},$FBD3,259,9,DEZ,3,$00FF,K; /UMP,%UR_RAM1,LFKORR,{te-Gesamtkorrekturfaktor (Low) (-> Synchro)},$005C,1,9,DEZ,2,$00FF,K; /UMP,%UR_RAM1,LRPM_Z,{Zaehler fuer Abwuergeerkennung |cpuls, 12ms|},$00B6,1,9,DEZ,2,$00FF,K; /UMP,%UR_RAM1,M16,{},$0097,1,9,DEZ,2,$00FF,K; /UMP,%UR_RAM1,M16FH,{air mass flow: Filtered M16 high |umr: Q16 [1.6 kg/h]},$0085,1,9,DEZ,2,$00FF,K; /UMP,%UR_RAM1,M16FL,{ ' ' ' low},$0086,1,9,DEZ,2,$00FF,K; /UMP,%UR_RAM1,M16_256,{},$0097,1,9,DEZ,2,$00FF,K; /UMP,%UR_RAM1,MCPAGE,{Adress-Highbyte f. xRAM im MCMESS Meßmodus},$006C,1,9,DEZ,2,$00FF,K; /UMP,%UR_RAM1,MC_PP,{parameter memory f. MCMESS-function calls},$008E,1,9,DEZ,2,$00FF,K; /UMP,%UR_RAM1,MFANFH,{ Messfensteranfang High-Byte |256* 2 zyklen|},$0013,1,9,DEZ,2,$00FF,K; /UMP,%UR_RAM1,MFANFL,{ Messfensteranfang Low-Byte |2 zyklen|},$0012,1,9,DEZ,2,$00FF,K; /UMP,%UR_RAM1,MFLENH,{ Messfensterlaenge High-Byte |256* 2 zyklen|},$0015,1,9,DEZ,2,$00FF,K; /UMP,%UR_RAM1,MFLENL,{ Messfensterlaenge Low-Byte |2 zyklen|},$0014,1,9,DEZ,2,$00FF,K; /UMP,%UR_RAM1,ML,{load detection: diagnosed air mass HOB},$FCD4,258,111,ML2BYTE,3,$FFFF,K; /UMP,%UR_RAM1,MLH,{load detection: air mass HOB},$00A5,258,111,ML2BYTE,2,$FFFF,K; /UMP,%UR_RAM1,MLL,{load detection: air mass LOB |umr: 0.125kg/h|},$00A6,1,9,DEZ,2,$00FF,K; /UMP,%UR_RAM1,MLNKA,{ air mass integrator to cut feed},$FBC2,1,117,M_LUFT075,3,$00FF,K; /UMP,%UR_RAM1,ML_H,{O:xml_h diagnosed air mass high},$002E,1,9,DEZ,2,$00FF,K; /UMP,%UR_RAM1,ML_L,{O:xml_l diagnosed air mass low},$002F,1,9,DEZ,2,$00FF,K; /UMP,%UR_RAM1,N10,{Drehzahl |umr:N10, 10 [1/min]|},$003C,1,121,N10,2,$00FF,K; /UMP,%UR_RAM1,N10_256,{[DAMOS-Source]},$003C,1,9,DEZ,2,$00FF,K; /UMP,%UR_RAM1,N2,{[DAMOS-Source]},$003B,1,120,N,2,$00FF,K; /UMP,%UR_RAM1,NFI,{antiruckel: Drehzahlfilter HOB |umr:N|},$008A,1,120,N,2,$00FF,K; /UMP,%UR_RAM1,NGRAD,{Drehzahlgradient |NMOT/.096 [1/min/s]|},$0088,1,125,NGRAD,2,$00FF,K; /UMP,%UR_RAM1,NMOT,{Drehzahl |umr:nmot, 30 [1/min]|},$003B,1,120,N,2,$00FF,K; /UMP,%UR_RAM1,NSTAT,{is stationary speed |umf: n10|},$F87C,1,121,N10,3,$00FF,K; /UMP,%UR_RAM1,OVT2,{overflow counter fuer Timer 2},$003F,1,9,DEZ,2,$00FF,K; /UMP,%UR_RAM1,OW,{Open-angle control |umr: ZAHN, 6grd|},$0057,1,9,DEZ,2,$00FF,K; /UMP,%UR_RAM1,O_FBANS,{O:xfbans nachstartfaktor bei BA (gefiltert)},$0030,1,9,DEZ,2,$00FF,K; /UMP,%UR_RAM1,PHANTASIE,{fancy name for ump_bit-processing},$0020,1,9,DEZ,2,$00FF,K; /UMP,%UR_RAM1,PORTE1,{flagbyte},$0020,1,9,DEZ,2,$00FF,K; /UMP,%UR_RAM1,PTV,{ = dushkb * PLRH ( 1 inc = 12 ms )},$FBCC,1,141,SEC12_LR,3,$00FF,K; /UMP,%UR_RAM1,PW_B_H,{steuerung leerlaufsteller: Buffer bei CPULS-},$006A,1,9,DEZ,2,$00FF,K; /UMP,%UR_RAM1,PW_H,{leerlaufsteller: Pulsweite High},$0067,258,188,TL_L,2,$FFFF,K; /UMP,%UR_RAM1,PW_L,{leerlaufsteller: Pulsweite Low},$0068,1,9,DEZ,2,$00FF,K; /UMP,%UR_RAM1,Q02,{air mass flow |umr:M02, 0.2 [kg/h]|},$0096,1,105,M02,2,$00FF,K; /UMP,%UR_RAM1,Q16,{air mass flow |umr:Q16, 1.6 [kg/h]|},$0097,1,135,Q16,2,$00FF,K; /UMP,%UR_RAM1,QAC,{air control: Filter Air compressor cut |umr:QSTELL,},$0091,1,138,QSTELL,2,$00FF,K; /UMP,%UR_RAM1,QFS,{air control: Filter Stoergroessenaufschaltg FS |umr},$008F,1,138,QSTELL,2,$00FF,K; /UMP,%UR_RAM1,QVS,{air control: basic air filter},$0093,1,138,QSTELL,2,$00FF,K; /UMP,%UR_RAM1,QVSB,{air control: ready-control value |umr:QSTELL, 0.4 [kg/h]|},$0095,1,138,QSTELL,2,$00FF,K; /UMP,%UR_RAM1,REFPE,{KR: Latch reference level |umr: U5VQ|},$009E,1,9,DEZ,2,$00FF,K; /UMP,%UR_RAM1,RUVSR,{shift register for RUV},$0021,1,9,DEZ,2,$00FF,K; /UMP,%UR_RAM1,SACTR,{time-delay for SA |umr:TMAIN, 0.03 s|},$0089,1,191,TMAIN,2,$00FF,K; /UMP,%UR_RAM1,SCPTR,{SCAN-Pointer (lueckenpruefung...)},$0053,1,9,DEZ,2,$00FF,K; /UMP,%UR_RAM1,SDTLW,{dtlw-speicher drosselklappenanteil |48us b.16MHz, vorz.},$F9F4,1,22,DTLW_SGN,3,$00FF,K; /UMP,%UR_RAM1,SDWFK,{speicherinhalt wandfilmdiff. kurzzeitterm, high},$F9E2,258,28,DWF_SGN,3,$FFFF,K; /UMP,%UR_RAM1,SDWFL,{speicherinhalt wandfilmdiff. langzeitterm, high},$F9E0,258,28,DWF_SGN,3,$FFFF,K; /UMP,%UR_RAM1,SENSF,{KR: Sensorfolge (Zylinderabhaengig)},$0047,1,9,DEZ,2,$00FF,K; /UMP,%UR_RAM1,SK,{te-Shiftkonstante Gesamtkorrekturfaktor (-> Synchro)},$005D,1,9,DEZ,2,$00FF,K; /UMP,%UR_RAM1,SPDFRP,{[FKT128] Meßwert Delta Fr bei Pumpenprüfung},$FAF0,1,9,DEZ,3,$00FF,K; /UMP,%UR_RAM1,SPDFRV,{[FKT128] Meßwert Delta Fr bei Ventilprüfung},$FAF1,1,9,DEZ,3,$00FF,K; /UMP,%UR_RAM1,SPSWFRP,{[FKT128] Schwellwert Delta Fr bei Pumpenprüfung},$FAF2,1,9,DEZ,3,$00FF,K; /UMP,%UR_RAM1,SPSWFRV,{[FKT128] Schwellwert Delta Fr bei Ventilprüfung},$FAF3,1,9,DEZ,3,$00FF,K; /UMP,%UR_RAM1,STACK,{},$00C8,312,9,DEZ,2,$00FF,K; /UMP,%UR_RAM1,SW,{Dwell angle control |umr: ZWON, 0.75 gradKW|},$0059,1,290,ZWON,2,$00FF,K; /UMP,%UR_RAM1,SWOUT,{Ausgabeschliesswinkel (KFSW) |umr: ZAHN, 6grd|},$0058,1,279,ZAHN,2,$00FF,K; /UMP,%UR_RAM1,SZEITH,{Zeitausgabe Inkrementverfg. Schliessbeginn HOB},$0052,1,9,DEZ,2,$00FF,K; /UMP,%UR_RAM1,SZEITL,{Zeitausgabe Inkrementverfg. Schliessbeginn LOB},$0051,1,9,DEZ,2,$00FF,K; /UMP,%UR_RAM1,T2ALT_H,{T2-Capturewert für v-Erfassung, alt, High},$0099,1,9,DEZ,2,$00FF,K; /UMP,%UR_RAM1,T2ALT_L,{T2-Capturewert für v-Erfassung, alt, Low},$0098,1,9,DEZ,2,$00FF,K; /UMP,%UR_RAM1,T2ALT_OV,{T2-Overflow für v-Erfassung, alt},$009A,1,9,DEZ,2,$00FF,K; /UMP,%UR_RAM1,T2_H,{Capturewert von Timer2 für v-Erfassung (High)},$0049,1,9,DEZ,2,$00FF,K; /UMP,%UR_RAM1,T2_L,{Capturewert von Timer2 für v-Erfassung (Low)},$0048,1,9,DEZ,2,$00FF,K; /UMP,%UR_RAM1,T2_OV,{ Timer2-Überlauf für v-Erfassung},$0016,1,9,DEZ,2,$00FF,K; /UMP,%UR_RAM1,TANS,{Ansauglufttemperatur/Umgebungstemp. |umr:TFATEMP|},$F868,1,171,TFATEMP,3,$00FF,K; /UMP,%UR_RAM1,TATE,{Output duty cycle |umr:TAU, 1%|},$F84B,1,163,TAU,3,$00FF,K; /UMP,%UR_RAM1,TATEI,{Errechnetes Tastv. (wirkt nicht bei DTEV, VL) | 0.39 [%]|},$F85A,1,163,TAU,3,$00FF,K; /UMP,%UR_RAM1,TBGR5,{fuer laufzeitkorrigierte filter pt10/11v: hi-laufzeit.},$00B8,1,9,DEZ,2,$00FF,K; /UMP,%UR_RAM1,TC6KATC,{ required for scatt mode 6},$F9D9,1,9,DEZ,3,$00FF,K; /UMP,%UR_RAM1,TC6KATS,{ required for scatt mode 6},$F9DB,1,9,DEZ,3,$00FF,K; /UMP,%UR_RAM1,TC6KATW,{ required for scatt mode 6},$F9DA,1,9,DEZ,3,$00FF,K; /UMP,%UR_RAM1,TDLER,{ int. Entprellzähler zur Setzen von E_le |t64main1=6},$FAFA,1,160,T64MAIN1,3,$00FF,K; /UMP,%UR_RAM1,TDLES,{ int. Entprellzähler zum Zurücksetzen von E_le |t64main1=6},$FAF9,1,160,T64MAIN1,3,$00FF,K; /UMP,%UR_RAM1,TENHK,{ Wartezeittimer für Freigabe LR h.K nach Freigabe LR v.K},$FBC8,1,224,T_256TCONV,3,$00FF,K; /UMP,%UR_RAM1,TEUKG,{gesamt-te-korrektur der UK, HOB |384us b.16MHz, vorz.|},$0061,258,189,TL_L_SGN,2,$FFFF,K; /UMP,%UR_RAM1,TEUKG_L,{gesamt-te-korrektur der UK, LOB |1.5us b.16MHz|},$0062,1,9,DEZ,2,$00FF,K; /UMP,%UR_RAM1,TEUKK,{ausgegebener kurzzeitanteil |24us b.16MHz|},$F9E6,258,28,DWF_SGN,3,$FFFF,K; /UMP,%UR_RAM1,TEUKL,{ausgegebener langzeitanteil |24us b.16MHz|},$F9E4,258,28,DWF_SGN,3,$FFFF,K; /UMP,%UR_RAM1,TEUKW,{auszugebender DK-anteil o. tmot-wichtg |48us b.16MHz, betra},$F9F5,1,180,TL,3,$00FF,K; /UMP,%UR_RAM1,TEUKWM,{DK-anteil der UK mit tmot-wichtung, HOB |384us b.16MHz, vor},$0063,258,189,TL_L_SGN,2,$FFFF,K; /UMP,%UR_RAM1,TEUKWM_L,{DK-anteil der UK mit tmot-wichtung, LOB |1.5us b.16MHz|},$0064,1,9,DEZ,2,$00FF,K; /UMP,%UR_RAM1,TE_H,{DOPPELBELEGUNG: schnellstart: das in initi (UE ti) (gecallt in iniclc)},$0013,1,9,DEZ,2,$00FF,K; /UMP,%UR_RAM1,THHASOLL,{einzurechnende Auszeit h. K. (0 oder THHAUB) [TMAIN1]},$FFF8,1,192,TMAIN1,3,$00FF,K; /UMP,%UR_RAM1,TI,{injection time HOB |256*asic-quant|},$006E,258,179,TI_L,2,$FFFF,K; /UMP,%UR_RAM1,TIZ,{Zahnzaehler fuer Ti-ausgabe},$0071,1,9,DEZ,2,$00FF,K; /UMP,%UR_RAM1,TI_EV1,{an EV1 ausgeg. TI_H-Wert fuer ZSP-Berechng |umr:ti_h|},$0076,1,176,TI_H,2,$00FF,K; /UMP,%UR_RAM1,TI_EV2,{an EV2 ausgeg. TI_H-Wert fuer ZSP-Berechng |umr:ti_h|},$0077,1,176,TI_H,2,$00FF,K; /UMP,%UR_RAM1,TI_EV3,{an EV3 ausgeg. TI_H-Wert fuer ZSP-Berechng |umr:ti_h|},$0078,1,176,TI_H,2,$00FF,K; /UMP,%UR_RAM1,TI_EV4,{an EV4 ausgeg. TI_H-Wert fuer ZSP-Berechng |umr:ti_h|},$0079,1,176,TI_H,2,$00FF,K; /UMP,%UR_RAM1,TI_EV5,{an EV5 ausgeg. TI_H-Wert fuer ZSP-Berechng |umr:ti_h|},$007A,1,176,TI_H,2,$00FF,K; /UMP,%UR_RAM1,TI_EV6,{an EV6 ausgeg. TI_H-Wert fuer ZSP-Berechng |umr:ti_h|},$007B,1,176,TI_H,2,$00FF,K; /UMP,%UR_RAM1,TI_L,{injection time LOB |asic-quant: 32/fosc|},$006F,1,9,DEZ,2,$00FF,K; /UMP,%UR_RAM1,TI_NR,{Nummer des auszuloesenden TI's},$0072,1,9,DEZ,2,$00FF,K; /UMP,%UR_RAM1,TI_STACK,{},$0076,1,9,DEZ,2,$00FF,K; /UMP,%UR_RAM1,TK0,{Lowbyte},$00B5,1,9,DEZ,2,$00FF,K; /UMP,%UR_RAM1,TK1,{Lowbyte},$00B2,1,9,DEZ,2,$00FF,K; /UMP,%UR_RAM1,TK2,{Lowbyte},$00AF,1,9,DEZ,2,$00FF,K; /UMP,%UR_RAM1,TK3,{Lowbyte},$00AC,1,9,DEZ,2,$00FF,K; /UMP,%UR_RAM1,TKSB,{Lowbyte := tk3_alt},$00A9,1,9,DEZ,2,$00FF,K; /UMP,%UR_RAM1,TL,{8bit-load |0.05 [ms]|},$0040,1,180,TL,2,$00FF,K; /UMP,%UR_RAM1,TL256,{[DAMOS-Source]},$0040,1,180,TL,2,$00FF,K; /UMP,%UR_RAM1,TL2B,{[DAMOS-Source]},$0040,1,9,DEZ,2,$00FF,K; /UMP,%UR_RAM1,TLA_H,{TL-Alt für Aussetzer-Erkennung HOB},$00C6,1,9,DEZ,2,$00FF,K; /UMP,%UR_RAM1,TLA_L,{TL-Alt für Aussetzer-Erkennung LOB},$00C5,1,9,DEZ,2,$00FF,K; /UMP,%UR_RAM1,TLFI_L,{Lowbyte Tl-Filter},$005F,1,9,DEZ,2,$00FF,K; /UMP,%UR_RAM1,TLMX,{Bereitstellung TLMAX-schwelle |umr:tl, 50us|},$008C,1,180,TL,2,$00FF,K; /UMP,%UR_RAM1,TLROH,{tl_h vor filterung |quant wie tl_h|},$0081,1,180,TL,2,$00FF,K; /UMP,%UR_RAM1,TLWA,{XTLW alt |umr:tl, 48us bei 16MHz|},$F9F3,1,180,TL,3,$00FF,K; /UMP,%UR_RAM1,TLWK,{ corrected TLW-side load signal |umr:tl, 50 us |},$F8D8,1,180,TL,3,$00FF,K; /UMP,%UR_RAM1,TLWKF,{filtered load next signal |UMF:tl, hibyte|},$F8FD,1,180,TL,3,$00FF,K; /UMP,%UR_RAM1,TL_16,{loadword (16Bit) HOB |timer2_high|},$0041,258,188,TL_L,2,$FFFF,K; /UMP,%UR_RAM1,TL_L,{loadword (16Bit) LOB |timer2_low|},$0042,1,9,DEZ,2,$00FF,K; /UMP,%UR_RAM1,TMABS,{ Motortemperatur beim letzten Motorabstellen, nur gueltig},$F951,1,168,TEMP,3,$00FF,K; /UMP,%UR_RAM1,TMOT,{plausibilised engine temperature |umr:TEMP, cts - 80|},$0038,1,168,TEMP,2,$00FF,K; /UMP,%UR_RAM1,TMOT2,{[DAMOS-Source]},$0038,1,168,TEMP,2,$00FF,K; /UMP,%UR_RAM1,TMOT2B,{[DAMOS-Source]},$0038,1,9,DEZ,2,$00FF,K; /UMP,%UR_RAM1,TN6E,{corresponds to TN6_E aus Syncro},$009D,1,9,DEZ,2,$00FF,K; /UMP,%UR_RAM1,TN6M,{corresponds to TN6_M aus Syncro |=Zeit für 1.5°KW; timer2-},$009C,1,9,DEZ,2,$00FF,K; /UMP,%UR_RAM1,TN_E,{tn-Exponent: 6zyl: 120gradKW},$003E,1,9,DEZ,2,$00FF,K; /UMP,%UR_RAM1,TN_M,{tn-Mantisse: 6zyl: 120gradKW},$003D,1,9,DEZ,2,$00FF,K; /UMP,%UR_RAM1,TRADTV,{LR: kombinierter addit. Korrekturwert der Adaption (LRA)},$0065,1,9,DEZ,2,$00FF,K; /UMP,%UR_RAM1,TRGSEGAD,{ Basisadresse des 64 Byte-Triggersegments},$FBC0,1,9,DEZ,3,$00FF,K; /UMP,%UR_RAM1,TRGSEG_A,{ Triggeradresse für Raster A (winkelsynchron)},$FBFC,258,9,DEZ,3,$FFFF,K; /UMP,%UR_RAM1,TRGSEG_B,{ Triggeradresse für Raster B (zeitsynchron)},$FBFE,258,9,DEZ,3,$FFFF,K; /UMP,%UR_RAM1,TUKNS,{timer nachstart unterdrueckung |96ms|},$F9EA,1,251,T_96_MS,3,$00FF,K; /UMP,%UR_RAM1,TV,{te Spannungskorrektur |umr:TB, 0.01 ms|},$0070,1,164,TB,2,$00FF,K; /UMP,%UR_RAM1,TVLRH,{ Zusaetzliche TV-Verschiebung fuer LR aus Lambdaregelung h.K.},$FBCA,1,194,TMESS_SGN,3,$00FF,K; /UMP,%UR_RAM1,TVLRHI,{ = tvlrhi ( 1 inc = 12 ms ) ( signed byte )},$FBCF,1,194,TMESS_SGN,3,$00FF,K; /UMP,%UR_RAM1,TVLRHP,{ = tvlrhp ( 1 inc = 12 ms ) ( signed byte )},$FBCE,1,194,TMESS_SGN,3,$00FF,K; /UMP,%UR_RAM1,TVMBEG,{LMR: Change Limited Sampling |umr: FKTP256|},$00BB,1,75,FKTP256,2,$00FF,K; /UMP,%UR_RAM1,TVSEL,{LMR: Counter for Sampling output},$00BC,1,9,DEZ,2,$00FF,K; /UMP,%UR_RAM1,TZLDB,{time counter for TLDB (PSMX limitation to B_NMAX) |T_9},$F8E8,1,251,T_96_MS,3,$00FF,K; /UMP,%UR_RAM1,UB,{Batteriespannung |umr:UB, 0.0704 [V]|},$0036,1,259,UB,2,$00FF,K; /UMP,%UR_RAM1,UB2B,{[DAMOS-source]},$0036,1,9,DEZ,2,$00FF,K; /UMP,%UR_RAM1,UBF5,{.#*>UR [UB] ; gefilterte Batteriespannung},$FFE5,1,259,UB,3,$00FF,K; /UMP,%UR_RAM1,UBKV,{register?? korrigiertes UB für Heizung vor Kat},$0031,1,9,DEZ,2,$00FF,K; /UMP,%UR_RAM1,UHLM,{MAF-voltage |umr:u_8b_adc|},$004B,1,267,U_8B_ADC,2,$00FF,K; /UMP,%UR_RAM1,UHV,{shunt current VK [UHLSO]},$FFF9,1,260,UHLSO,3,$00FF,K; /UMP,%UR_RAM1,UHVF,{.#*>UR [UHLSO] ; gefilterter Heizstrom vK},$FFEE,1,260,UHLSO,3,$00FF,K; /UMP,%UR_RAM1,UKLOPF,{KR: UKLOPF Scanned integrator value |umr: U5VQ|},$0044,1,258,U5VQ,2,$00FF,K; /UMP,%UR_RAM1,VL_S_ALT,{ti-Vorlagerung letztes Segment |umr:segment, 144 gradKW|},$0080,1,147,SEGMENT,2,$00FF,K; /UMP,%UR_RAM1,VL_S_NEU,{Number of segments ti-prestorage, neu |umr:segment, 144gra},$0074,1,147,SEGMENT,2,$00FF,K; /UMP,%UR_RAM1,VL_Z_NEU,{Number of teeth ti-prestorage, neu |umr:zahn, 6gradKW|},$0075,1,279,ZAHN,2,$00FF,K; /UMP,%UR_RAM1,VMESS,{fahrzeuggeschwindigkeit |umr:speed, 1km/h|},$00B7,1,150,SPEED,2,$00FF,K; /UMP,%UR_RAM1,VREG0,{Volumenstrom |umr:VOL, QVOL=0.026},$F84A,1,271,VOL,3,$00FF,K; /UMP,%UR_RAM1,VZ,{ Tachosignalzaehler},$0017,1,9,DEZ,2,$00FF,K; /UMP,%UR_RAM1,V_EV,{extension of the injection |umr:tmain1|},$0073,1,192,TMAIN1,2,$00FF,K; /UMP,%UR_RAM1,WF,{alte wandfilmmenge (aus KLWF), high},$F9E8,258,25,DWF,3,$FFFF,K; /UMP,%UR_RAM1,W_DOG,{software wachhund: zeitzaehler |12ms|},$0069,1,9,DEZ,2,$00FF,K; /UMP,%UR_RAM1,X100MS,{},$FCAD,1,9,DEZ,3,$00FF,K; /UMP,%UR_RAM1,X1SEC,{ 1-Sekunden-Raster-Zaehler},$FCBB,1,9,DEZ,3,$00FF,K; /UMP,%UR_RAM1,X2ZDG_R,{zdgzaehler, raster 2*ZDG_R, beginnt nach start!},$FF4F,1,9,DEZ,3,$00FF,K; /UMP,%UR_RAM1,X64MAIN1,{ 64*main1-raster timer},$FCB8,1,9,DEZ,3,$00FF,K; /UMP,%UR_RAM1,X64MAIN1_A,{ 64*main1-raster timer old},$FCB9,1,9,DEZ,3,$00FF,K; /UMP,%UR_RAM1,X64MAIN1_D,{ 64*main1-raster timer difference},$FCBA,1,9,DEZ,3,$00FF,K; /UMP,%UR_RAM1,XAACOUNT,{ frame counter for service AA40},$FBBA,1,9,DEZ,3,$00FF,K; /UMP,%UR_RAM1,XAAPTR,{ ram pointer for service AA40},$FBB8,258,9,DEZ,3,$FFFF,K; /UMP,%UR_RAM1,XABDAT,{ 14},$F8A1,270,9,DEZ,3,$00FF,K; /UMP,%UR_RAM1,XABNR,{ Blocknummer -------------},$F89F,1,9,DEZ,3,$00FF,K; /UMP,%UR_RAM1,XABUFF,{ Blocklaenge Ausgabepuffer},$F89E,1,9,DEZ,3,$00FF,K; /UMP,%UR_RAM1,XABUPTR,{ Pointer to the current address in the output buffer},$FB7D,1,9,DEZ,3,$00FF,K; /UMP,%UR_RAM1,XABYTE,{ letztes ausgegebenes Byte DOPPELBELEGUNG !},$F889,1,9,DEZ,3,$00FF,K; /UMP,%UR_RAM1,XADDRESS,{ high,low address - used in service A7*01*},$FBAD,258,9,DEZ,3,$FFFF,K; /UMP,%UR_RAM1,XAFIDX,{ Aussetzerfenster-Index},$FB33,1,9,DEZ,3,$00FF,K; /UMP,%UR_RAM1,XAFNMN,{ Aussetzerfenster-Nmin},$FB34,1,9,DEZ,3,$00FF,K; /UMP,%UR_RAM1,XAFNMNT,{ Aussetzerfenster-Nmin Temporear},$FB39,1,120,N,3,$00FF,K; /UMP,%UR_RAM1,XAFNMX,{ Aussetzerfenster-Nmax},$FB35,1,9,DEZ,3,$00FF,K; /UMP,%UR_RAM1,XAFNMXT,{ Aussetzerfenster-Nmax Temporear},$FB3A,1,120,N,3,$00FF,K; /UMP,%UR_RAM1,XAFTLMN,{ Aussetzerfenster-TLmin},$FB36,1,9,DEZ,3,$00FF,K; /UMP,%UR_RAM1,XAFTLMNT,{ Aussetzerfenster-TLmin Temporear},$FB3B,1,180,TL,3,$00FF,K; /UMP,%UR_RAM1,XAFTLMX,{ Aussetzerfenster-TLmax},$FB37,1,9,DEZ,3,$00FF,K; /UMP,%UR_RAM1,XAFTLMXT,{ Aussetzerfenster-TLmax Temporear},$FB3C,1,180,TL,3,$00FF,K; /UMP,%UR_RAM1,XAFTM,{ Aussetzerfenster-TMOT-Status},$FB38,1,9,DEZ,3,$00FF,K; /UMP,%UR_RAM1,XAFTMT,{ Aussetzerfenster-TMOT-Status Temporear},$FB3D,1,9,DEZ,3,$00FF,K; /UMP,%UR_RAM1,XAGW,{ Number of elements in the filter matrix over exceed the limit},$F9C9,1,9,DEZ,3,$00FF,K; /UMP,%UR_RAM1,XAKFALT,{ Per case depth knocker |umr: ZWONN|},$FA0B,1,9,DEZ,3,$00FF,K; /UMP,%UR_RAM1,XALRST,{ Status and stop flags of the LRA},$F80A,1,9,DEZ,3,$00FF,K; /UMP,%UR_RAM1,XANALU,{ Zaehler fuer Aussetzer nach erkanntem Aussetzer},$FB0C,1,9,DEZ,3,$00FF,K; /UMP,%UR_RAM1,XANZ,{ 1},$F891,1,9,DEZ,3,$00FF,K; /UMP,%UR_RAM1,XANZAHL,{ Anzahl der noch nicht untersuchten Fehler bei},$FB7B,1,9,DEZ,3,$00FF,K; /UMP,%UR_RAM1,XAPDTE,{ Anzahl der begonnen Prüfungen bei DTES},$FDD0,1,9,DEZ,3,$00FF,K; /UMP,%UR_RAM1,XAPEDTE,{ Anzahl der Prüfungen mit Fehlerergebnis bei DTES},$FDD1,1,9,DEZ,3,$00FF,K; /UMP,%UR_RAM1,XAPTR,{ Auslesezeiger},$F883,1,9,DEZ,3,$00FF,K; /UMP,%UR_RAM1,XASB,{ Adaptionsfilter XASB ( 4 Byte - Größe ! )},$FB59,516,9,DEZ,3,$FFFF,K; /UMP,%UR_RAM1,XASC,{ Adaptionsfilter XASC ( 4 Byte - Größe ! )},$FB5D,516,9,DEZ,3,$FFFF,K; /UMP,%UR_RAM1,XASD,{ Adaptionsfilter XASD ( 4 Byte - Größe ! )},$FB61,516,9,DEZ,3,$FFFF,K; /UMP,%UR_RAM1,XASE,{ Adaptionsfilter XASE ( 4 Byte - Größe ! )},$FB65,516,9,DEZ,3,$FFFF,K; /UMP,%UR_RAM1,XATVFETT,{ ATV: Fettverschiebung in 40ms/Ink},$FAD8,1,237,T_4E_2,3,$00FF,K; /UMP,%UR_RAM1,XATVMAGER,{ ATV: Magerverschiebung in 40ms/Ink},$FAD9,1,237,T_4E_2,3,$00FF,K; /UMP,%UR_RAM1,XATVN,{ [T_TM_O128] normierter Wert des Regelfaktors der LRHK},$F8E6,1,257,T_TM_O128,3,$00FF,K; /UMP,%UR_RAM1,XATVN1,{XATVN vom letzten Durchgang |T_TM_O128|},$F8E7,1,9,DEZ,3,$00FF,K; /UMP,%UR_RAM1,XATZLR,{Sample counter for targeted stimulation},$F881,1,9,DEZ,3,$00FF,K; /UMP,%UR_RAM1,XAUSBLZ,{ Ausblendzaehler},$FB02,1,9,DEZ,3,$00FF,K; /UMP,%UR_RAM1,XAVG,{ bereitgestellter Grenzwert fuer Amplitudenverhaeltnis AV},$F9B0,1,60,FKT256,3,$00FF,K; /UMP,%UR_RAM1,XAVKAT,{ Amplitudenverhaeltnis AV der Lambdaschwingungen hinter/vor Kat},$F9D4,1,60,FKT256,3,$00FF,K; /UMP,%UR_RAM1,XAWBLKL,{ Laenge des aktuellen Antwortblocks im Ausgabepuffer},$FB7E,1,9,DEZ,3,$00FF,K; /UMP,%UR_RAM1,XAZFKT,{Zuendwinkel (24ms-ebene, nach KFZW,KLZWL)},$F911,1,289,ZWOF,3,$00FF,K; /UMP,%UR_RAM1,XAZKH,{zuendzaehler ab erkennung LL->TL, |q=zylzahl|},$FCD8,1,297,ZYLZAHL,3,$00FF,K; /UMP,%UR_RAM1,XAZMESS,{Entprellzäher (Anzahl der Messzyklus) für Pfad Plausi.},$F8F8,1,9,DEZ,3,$00FF,K; /UMP,%UR_RAM1,XAZMFS,{[dez] Number of lean-rich probe jumps for start DSLS},$FAB8,1,9,DEZ,3,$00FF,K; /UMP,%UR_RAM1,XAZPLTFA,{ Zähler Anzahl der Messung für Plaus.checl |umr: Dez|},$FFBC,1,9,DEZ,3,$00FF,K; /UMP,%UR_RAM1,XB1CT,{number range given for start-B1-tis. |dez|},$F93E,1,9,DEZ,3,$00FF,K; /UMP,%UR_RAM1,XB9COUNT,{ frame counter for service B906},$FBB7,1,9,DEZ,3,$00FF,K; /UMP,%UR_RAM1,XB9PTR,{ rom pointer},$FBB5,258,9,DEZ,3,$FFFF,K; /UMP,%UR_RAM1,XBFNMN,{ Betriebsfenster-Nmin},$FB3E,1,120,N,3,$00FF,K; /UMP,%UR_RAM1,XBFNMX,{ Betriebsfenster-Nmax},$FB3F,1,120,N,3,$00FF,K; /UMP,%UR_RAM1,XBFTLMN,{ Betriebsfenster-TLmin},$FB40,1,180,TL,3,$00FF,K; /UMP,%UR_RAM1,XBFTLMX,{ Betriebsfenster-TLmax},$FB41,1,180,TL,3,$00FF,K; /UMP,%UR_RAM1,XBFTM,{ Betriebsfenster-TMOT-Status},$FB42,1,9,DEZ,3,$00FF,K; /UMP,%UR_RAM1,XBLKZL,{ Blockzaehler},$F882,1,9,DEZ,3,$00FF,K; /UMP,%UR_RAM1,XBMAL,{Entprellzaehler Fehlereintrag |dez.|, Pfad CDTBM},$F833,1,9,DEZ,3,$00FF,K; /UMP,%UR_RAM1,XBNR,{ Blocknummer -------------},$F88F,1,9,DEZ,3,$00FF,K; /UMP,%UR_RAM1,XBOFFCT,{ Fehlerzähler für BusOff, Reset mit KL15ein},$FCF5,1,9,DEZ,3,$00FF,K; /UMP,%UR_RAM1,XBOFF_INFO,{ Fehlerzähler für BusOff, Reset mit FSP-Delete},$FCF3,1,9,DEZ,3,$00FF,K; /UMP,%UR_RAM1,XBS,{ Wert des BS-Sensors},$FB25,1,267,U_8B_ADC,3,$00FF,K; /UMP,%UR_RAM1,XBSMW,{ Nullpunktfilter für BS-Sensor},$FB28,259,9,DEZ,3,$00FF,K; /UMP,%UR_RAM1,XBSSP,{ BS-Wert Filter},$FB26,1,85,FSWALU,3,$00FF,K; /UMP,%UR_RAM1,XBTNUS,{BTN-untersetzungszaehler fuer quasisegment-},$FFB3,1,9,DEZ,3,$00FF,K; /UMP,%UR_RAM1,XCANMESS1_,{ Buffer für Byte 0 von Ausgabemessage 1},$FCF1,1,9,DEZ,3,$00FF,K; /UMP,%UR_RAM1,XCANMESS3_,{ Buffer für Byte 2 von Ausgabemessage 3},$FCF2,1,9,DEZ,3,$00FF,K; /UMP,%UR_RAM1,XCARBFLR,{ Anzahl der noch nicht ausgegebenen CARB-Fehler},$FB7C,1,9,DEZ,3,$00FF,K; /UMP,%UR_RAM1,XCDT_AP,{Trigger for VS100},$F9AD,1,9,DEZ,3,$00FF,K; /UMP,%UR_RAM1,XCFLRANZ,{ CARB-Fehleranzahl im Fehlerspeicher},$FB79,1,9,DEZ,3,$00FF,K; /UMP,%UR_RAM1,XCFLRANZ_A,{ Anzahl der noch nicht untersuchten nicht},$FB7A,1,9,DEZ,3,$00FF,K; /UMP,%UR_RAM1,XCJ400,{ Status of state machines},$FDDD,1,9,DEZ,3,$00FF,K; /UMP,%UR_RAM1,XCJ400DIS,{ Lock bits for functions},$FDDE,1,9,DEZ,3,$00FF,K; /UMP,%UR_RAM1,XCJ400FLG,{ Flagregister CJ400-Diagnose},$FDDF,1,9,DEZ,3,$00FF,K; /UMP,%UR_RAM1,XCJ400_A,{ DS (ANZAHL_CJ400*ANZAHL_AUSG)},$FDEF,1,9,DEZ,3,$00FF,K; /UMP,%UR_RAM1,XCJ400_A11,{ CJ 1, 1. Endstufe (ev1)},$FDEF,1,9,DEZ,3,$00FF,K; /UMP,%UR_RAM1,XCJ400_A12,{ CJ 1, 2. Endstufe (ev2)},$FDF0,1,9,DEZ,3,$00FF,K; /UMP,%UR_RAM1,XCJ400_A13,{ CJ 1, 3. Endstufe (ev3)},$FDF1,1,9,DEZ,3,$00FF,K; /UMP,%UR_RAM1,XCJ400_A14,{ CJ 1, 4. Endstufe (ev4)},$FDF2,1,9,DEZ,3,$00FF,K; /UMP,%UR_RAM1,XCJ400_A21,{ CJ 2, 1. Endstufe (ev5)},$FDF3,1,9,DEZ,3,$00FF,K; /UMP,%UR_RAM1,XCJ400_A22,{ CJ 2, 2. Endstufe (ZWD-Schließer)},$FDF4,1,9,DEZ,3,$00FF,K; /UMP,%UR_RAM1,XCJ400_A23,{ CJ 2, 3. Endstufe (ZWD-Öffner)},$FDF5,1,9,DEZ,3,$00FF,K; /UMP,%UR_RAM1,XCJ400_A24,{ CJ 2, 4. Endstufe (EGB, LDL nicht benutzt)},$FDF6,1,9,DEZ,3,$00FF,K; /UMP,%UR_RAM1,XCJ400_A31,{ CJ 3, 1. Endstufe (TEVE)},$FDF7,1,9,DEZ,3,$00FF,K; /UMP,%UR_RAM1,XCJ400_A32,{ CJ 3, 2. Endstufe (AAVE)},$FDF8,1,9,DEZ,3,$00FF,K; /UMP,%UR_RAM1,XCJ400_A33,{ CJ 3, 3. Endstufe (LUEA)},$FDF9,1,9,DEZ,3,$00FF,K; /UMP,%UR_RAM1,XCJ400_A34,{ CJ 3, 4. Endstufe (SLVE)},$FDFA,1,9,DEZ,3,$00FF,K; /UMP,%UR_RAM1,XCJ400_E,{ Fehlerartenramzellen fuer Schaltfunktionen},$FDFB,1,9,DEZ,3,$00FF,K; /UMP,%UR_RAM1,XCJ400_FLR,{ Aktuelle Fehlerart fuer Abspeicherung},$FDED,1,9,DEZ,3,$00FF,K; /UMP,%UR_RAM1,XCJ400_OFF,{ Endstufennummer der CJ400-Kaskade},$FDEE,1,9,DEZ,3,$00FF,K; /UMP,%UR_RAM1,XCKPF0,{Powerfailfrei-Zaehler, 0 := PWF erkannt, ->},$FAF5,1,9,DEZ,3,$00FF,K; /UMP,%UR_RAM1,XCKPF1,{powerfailpruefzelle (1. von 2), sollwert 55H},$F86B,1,9,DEZ,3,$00FF,K; /UMP,%UR_RAM1,XCKPF2,{powerfailpruefzelle (2. von 2), sollwert AAH},$FAF4,1,9,DEZ,3,$00FF,K; /UMP,%UR_RAM1,XCONTMODE,{ used within scatt ( defined by Becker )},$FBBC,1,9,DEZ,3,$00FF,K; /UMP,%UR_RAM1,XCOUNT,{ Zaehler fuer Zeitrasteruntersetzung},$F944,1,9,DEZ,3,$00FF,K; /UMP,%UR_RAM1,XCTPDK,{ Zaehler fuer DK-Fehler-Entprellzeit},$F92A,1,9,DEZ,3,$00FF,K; /UMP,%UR_RAM1,XCTZRUS,{ Zaehler fuer Zeitrasteruntersetzung},$F929,1,9,DEZ,3,$00FF,K; /UMP,%UR_RAM1,XCW,{ Blocktitel},$F890,1,9,DEZ,3,$00FF,K; /UMP,%UR_RAM1,XD2ACTREST,{ active time service B0 - restore value},$FBB1,1,9,DEZ,3,$00FF,K; /UMP,%UR_RAM1,XD2B0ACT,{ active time service B0},$FBAF,1,9,DEZ,3,$00FF,K; /UMP,%UR_RAM1,XD2B0PAS,{ passive time service B0},$FBB2,1,9,DEZ,3,$00FF,K; /UMP,%UR_RAM1,XD2B0PULSE,{ number of pulses to be sent},$FBB3,1,9,DEZ,3,$00FF,K; /UMP,%UR_RAM1,XD2B0SERV,{ required B0 service},$FBB4,1,9,DEZ,3,$00FF,K; /UMP,%UR_RAM1,XD2DYNAMIC,{ 20 addresses with 2 bytes for each address},$FF89,296,9,DEZ,3,$00FF,K; /UMP,%UR_RAM1,XD2DYN_PTR,{ pointer to xdsdynamic map},$FFB1,258,9,DEZ,3,$FFFF,K; /UMP,%UR_RAM1,XD2PASREST,{ passive time service B0 - restore value},$FBB0,1,9,DEZ,3,$00FF,K; /UMP,%UR_RAM1,XD2VARIOUS,{ various info required within D2},$FBAA,1,9,DEZ,3,$00FF,K; /UMP,%UR_RAM1,XDASMWUC,{ Aktueller TMOT-Status},$FB43,1,9,DEZ,3,$00FF,K; /UMP,%UR_RAM1,XDDFFLG,{Statusflag für GGDF},$F8F9,1,9,DEZ,3,$00FF,K; /UMP,%UR_RAM1,XDFTEABH,{Betrag von Fkt. Gemischadapt. bei TE Abw. v. 1},$F854,1,51,FKT128,3,$00FF,K; /UMP,%UR_RAM1,XDFTEABL,{ ' '},$F855,1,9,DEZ,3,$00FF,K; /UMP,%UR_RAM1,XDGRZ,{Status word for targeted stimulation},$F87D,1,9,DEZ,3,$00FF,K; /UMP,%UR_RAM1,XDKCT,{ fortlaufender DK-Berechnungszähler | 1 ms |},$FCF0,1,9,DEZ,3,$00FF,K; /UMP,%UR_RAM1,XDKFAK,{KR: k-faktor; bei uns nicht wirksam!},$F91D,1,95,KEKRSW,3,$00FF,K; /UMP,%UR_RAM1,XDKRIF,{ OVL-Diagnose Flagregister},$FA96,1,9,DEZ,3,$00FF,K; /UMP,%UR_RAM1,XDLDACT,{ Zähler für n=0 - Erkennung |umr:t},$FFD9,1,9,DEZ,3,$00FF,K; /UMP,%UR_RAM1,XDMXZ,{ Zähler für Änderungsbegrenzung von DMXRLU},$FB20,1,9,DEZ,3,$00FF,K; /UMP,%UR_RAM1,XDN10,{ N10-N10ALT},$FA91,1,9,DEZ,3,$00FF,K; /UMP,%UR_RAM1,XDNALU,{delta-n zur EDASE-freigabe |umr: DNALU|},$FF54,1,17,DNALU,3,$00FF,K; /UMP,%UR_RAM1,XDNGEB,{Flagregister fuer DNGEB},$F834,1,9,DEZ,3,$00FF,K; /UMP,%UR_RAM1,XDNKH,{delta-solldrehzahl aus kfdnllkh |umr: N10|},$F8C8,1,121,N10,3,$00FF,K; /UMP,%UR_RAM1,XDNSZKC,{vorteiler f. zeitabsteuerung der},$F943,1,9,DEZ,3,$00FF,K; /UMP,%UR_RAM1,XDPAC_FLAG,{Flagregister for DPAC},$F96F,1,9,DEZ,3,$00FF,K; /UMP,%UR_RAM1,XDPX,{ Druckminimum},$FDCA,1,9,DEZ,3,$00FF,K; /UMP,%UR_RAM1,XDQDP,{interpolation results from event low DQDPN},$F82E,1,138,QSTELL,3,$00FF,K; /UMP,%UR_RAM1,XDSLPEPZ,{zaehler fuer fehlerentprellung (systemkonstante},$FDDC,1,9,DEZ,3,$00FF,K; /UMP,%UR_RAM1,XDSLS1,{Flagregister 1 (Belegung siehe OV,DSEG)},$FAB3,1,9,DEZ,3,$00FF,K; /UMP,%UR_RAM1,XDSLS2,{Flagregister 2 (Belegung siehe OV,DSEG)},$FAB4,1,9,DEZ,3,$00FF,K; /UMP,%UR_RAM1,XDSLS3,{Flagregister 3 (Belegung siehe unten)},$FAB5,1,9,DEZ,3,$00FF,K; /UMP,%UR_RAM1,XDSLS4,{Flagregister 4 (Belegung siehe unten)},$FAB6,1,9,DEZ,3,$00FF,K; /UMP,%UR_RAM1,XDSLSST,{ used within scatt mode 6},$FBBD,1,9,DEZ,3,$00FF,K; /UMP,%UR_RAM1,XDTESPHC,{ DTES-blocking counter},$FDD2,258,9,DEZ,3,$FFFF,K; /UMP,%UR_RAM1,XDTESST,{ Status of DTES},$FDBC,1,9,DEZ,3,$00FF,K; /UMP,%UR_RAM1,XDTESSTAV,{ Status der AAV-Prüfung},$FDBD,1,9,DEZ,3,$00FF,K; /UMP,%UR_RAM1,XDTLALU,{delta-tl zur EDASE-freigabe |umr: DTLALU|},$FF53,1,19,DTLALU,3,$00FF,K; /UMP,%UR_RAM1,XDTLDUH,{ untere Plaus.-Grenze Diagnose load detection |umr. FKT12},$FAFC,1,51,FKT128,3,$00FF,K; /UMP,%UR_RAM1,XDTLUE,{delta TL during TUEDTL |umr: TL|},$F8B1,1,9,DEZ,3,$00FF,K; /UMP,%UR_RAM1,XDTLWGR,{|16XI|SZ-Nr| delta-TLW-distribution},$FCCE,1,9,DEZ,3,$00FF,K; /UMP,%UR_RAM1,XDTMDMM,{ [umr:temp] Stufenbreite für TMOD-Steigung},$FCFB,1,168,TEMP,3,$00FF,K; /UMP,%UR_RAM1,XDTV,{ Korrektur EV-Fehler der LRA},$F807,1,99,KVS,3,$00FF,K; /UMP,%UR_RAM1,XDTVKA,{.#*>UR [TV_LR] ;Delta TV fuer LRKA},$FBDF,1,206,TV_LR,3,$00FF,K; /UMP,%UR_RAM1,XDTV_L,{ low Byte zu XDTV (= XDTV+1)},$F808,258,9,DEZ,3,$FFFF,K; /UMP,%UR_RAM1,XDUBATT,{ Flagregister fuer DUBATT},$F8C5,1,9,DEZ,3,$00FF,K; /UMP,%UR_RAM1,XDVFLAG,{ Flagbyte für Diagnose Geschwingigkeitsignal},$FAE1,1,9,DEZ,3,$00FF,K; /UMP,%UR_RAM1,XDVMFA,{KR: messfensteranfang; bei uns nicht wirksam!},$F91B,1,290,ZWON,3,$00FF,K; /UMP,%UR_RAM1,XDVMFL,{KR: messfensterlaenge; bei uns nicht wirksam!},$F91C,1,290,ZWON,3,$00FF,K; /UMP,%UR_RAM1,XDWDK,{ WDK-Gradient (delta WDK/main1-raster)},$FA81,1,9,DEZ,3,$00FF,K; /UMP,%UR_RAM1,XDWKRS,{ Safety retardation |umr: ZWONN|},$FA09,1,291,ZWONN,3,$00FF,K; /UMP,%UR_RAM1,XDYNZAE,{ Ignition count for dynamic derivative},$FA82,1,9,DEZ,3,$00FF,K; /UMP,%UR_RAM1,XDZUWE,{buffer stufenbreite from KFDZUWE1/.. |umr: STUF|},$FCDD,1,9,DEZ,3,$00FF,K; /UMP,%UR_RAM1,XDZUWEZ,{counter stufenbreite |umr: STUF|},$FCDE,1,9,DEZ,3,$00FF,K; /UMP,%UR_RAM1,XDZWK1,{ZW, cyl-selective, Syncro, according to edit,-},$F915,1,289,ZWOF,3,$00FF,K; /UMP,%UR_RAM1,XDZWK2,{},$F916,1,289,ZWOF,3,$00FF,K; /UMP,%UR_RAM1,XDZWK3,{},$F917,1,289,ZWOF,3,$00FF,K; /UMP,%UR_RAM1,XDZWK4,{ --- '' --- ebenso zylinder 2 - 6},$F918,1,289,ZWOF,3,$00FF,K; /UMP,%UR_RAM1,XDZWK5,{},$F919,1,289,ZWOF,3,$00FF,K; /UMP,%UR_RAM1,XDZWK6,{},$F91A,1,9,DEZ,3,$00FF,K; /UMP,%UR_RAM1,XDZWUEF,{buffer for DZWUEF from KFDWWESA/LL |umr: ZWONN|},$FCDC,1,291,ZWONN,3,$00FF,K; /UMP,%UR_RAM1,XDZWZZ,{????; bei uns nicht wirksam!},$F91E,1,9,DEZ,3,$00FF,K; /UMP,%UR_RAM1,XEBNZ,{ Ebenenzaehler},$F888,1,9,DEZ,3,$00FF,K; /UMP,%UR_RAM1,XEBNZST,{ Levels for counter scan tool transmission},$FB73,1,9,DEZ,3,$00FF,K; /UMP,%UR_RAM1,XEBOX,{Ebox-temperatur |umr:tmpebo|},$F86A,1,196,TMPEBO,3,$00FF,K; /UMP,%UR_RAM1,XEBUFF,{ block length read buffer},$F88E,1,9,DEZ,3,$00FF,K; /UMP,%UR_RAM1,XEBUPTR,{ Pointer to the current address in the buffer},$FB9C,1,9,DEZ,3,$00FF,K; /UMP,%UR_RAM1,XEBYTE,{ letztes eingelesenes Byte DOPPELBELEGUNG !},$F889,1,9,DEZ,3,$00FF,K; /UMP,%UR_RAM1,XEDTEV,{ Defined twice, thus compatible with dtEV},$FDA3,1,9,DEZ,3,$00FF,K; /UMP,%UR_RAM1,XEPTR,{ A read pointer},$F884,1,9,DEZ,3,$00FF,K; /UMP,%UR_RAM1,XERFLG,{},$F976,1,9,DEZ,3,$00FF,K; /UMP,%UR_RAM1,XERFLG1,{},$F976,1,9,DEZ,3,$00FF,K; /UMP,%UR_RAM1,XERFLG10,{},$F97F,1,9,DEZ,3,$00FF,K; /UMP,%UR_RAM1,XERFLG11,{},$F980,1,9,DEZ,3,$00FF,K; /UMP,%UR_RAM1,XERFLG2,{calculation of the error-bit address:},$F977,1,9,DEZ,3,$00FF,K; /UMP,%UR_RAM1,XERFLG3,{------------------------------------},$F978,1,9,DEZ,3,$00FF,K; /UMP,%UR_RAM1,XERFLG4,{fehlerortindex/8 => vorkomma-anteil},$F979,1,9,DEZ,3,$00FF,K; /UMP,%UR_RAM1,XERFLG5,{ergibt byteadresse (mit basis xerflg), nach-},$F97A,1,9,DEZ,3,$00FF,K; /UMP,%UR_RAM1,XERFLG6,{comma * 8 bit position in the byte is.},$F97B,1,9,DEZ,3,$00FF,K; /UMP,%UR_RAM1,XERFLG7,{},$F97C,1,9,DEZ,3,$00FF,K; /UMP,%UR_RAM1,XERFLG8,{},$F97D,1,9,DEZ,3,$00FF,K; /UMP,%UR_RAM1,XERFLG9,{},$F97E,1,9,DEZ,3,$00FF,K; /UMP,%UR_RAM1,XERG_DPS,{ LMR-set value - Value of Load Line 1 |umr:TL|},$FFC6,1,180,TL,3,$00FF,K; /UMP,%UR_RAM1,XERG_PS,{ LMR-corrected reference value from map |umr:TL|},$FFC5,1,180,TL,3,$00FF,K; /UMP,%UR_RAM1,XERPTR,{Number of stored fault},$F9AE,1,9,DEZ,3,$00FF,K; /UMP,%UR_RAM1,XERROR,{ Verifizierter Fehlerbitspeicher des CJ400-Baustein},$FDE4,259,9,DEZ,3,$00FF,K; /UMP,%UR_RAM1,XERSTTI,{erstspritzinfo fuer zuendungsunterdrueckung},$F93F,1,9,DEZ,3,$00FF,K; /UMP,%UR_RAM1,XE_HLS,{.#*>UR [DEZ] ; Flagregister der DHLS},$FFFB,1,9,DEZ,3,$00FF,K; /UMP,%UR_RAM1,XE_LRKA,{ Blockende der LRKA-Rams},$FBE0,1,9,DEZ,3,$00FF,K; /UMP,%UR_RAM1,XE_LSHK,{ Fehlerflagregister der Lambdasondenüberwachung behind cat (-> E_DLS)},$F961,1,9,DEZ,3,$00FF K; /UMP,%UR_RAM1,XE_LSVK,{ Fehlerflagregister der Lambdasondenüberwachung vor Kat (-> E_DLS)},$F94D,1,9,DEZ,3,$00FF,K; /UMP,%UR_RAM1,XFABGM,{ Abgespeicherter Mittelwert},$FB4B,1,9,DEZ,3,$00FF,K; /UMP,%UR_RAM1,XFALARO,{ Address in case depth map},$FA07,1,9,DEZ,3,$00FF,K; /UMP,%UR_RAM1,XFALMAX,{ maximum case depth |umr: ZWONN|},$FA0A,1,291,ZWONN,3,$00FF,K; /UMP,%UR_RAM1,XFALMIT,{ Summe der ZW-Spaetverstellungen |umr:ZWONN|},$FA84,1,291,ZWONN,3,$00FF,K; /UMP,%UR_RAM1,XFALT1,{ 1},$FA32,1,291,ZWONN,3,$00FF,K; /UMP,%UR_RAM1,XFALT2,{ 2},$FA33,1,291,ZWONN,3,$00FF,K; /UMP,%UR_RAM1,XFALT3,{ 3},$FA31,1,291,ZWONN,3,$00FF,K; /UMP,%UR_RAM1,XFALT4,{ 4},$FA34,1,291,ZWONN,3,$00FF,K; /UMP,%UR_RAM1,XFALT5,{ 5 Cyl.spez. Falltiefen nicht adap. |umr: ZWONN|},$FA30,1,291,ZWONN,3,$00FF,K; /UMP,%UR_RAM1,XFALTA,{ 5,3,1,2,4 N > KRAN1},$FA35,261,9,DEZ,3,$00FF,K; /UMP,%UR_RAM1,XFAN15TIME,{ topical delay time - Bed15 (n2pht,n3p spezifisch) ,ml},$F8BC,1,9,DEZ,3,$00FF,K; /UMP,%UR_RAM1,XFANT1,{ topical fan running - branch1},$F8B7,1,9,DEZ,3,$00FF,K; /UMP,%UR_RAM1,XFANT2,{ topical fan running - branch2},$F8B8,1,9,DEZ,3,$00FF,K; /UMP,%UR_RAM1,XFANT3,{ topical fan running - branch3},$F8B9,1,9,DEZ,3,$00FF,K; /UMP,%UR_RAM1,XFANTIM1,{ topical delay time - Bed31},$F8BB,1,9,DEZ,3,$00FF,K; /UMP,%UR_RAM1,XFANTIME,{ topical delay time - Bed16},$F8BA,1,9,DEZ,3,$00FF,K; /UMP,%UR_RAM1,XFATM,{ Flagregister Abgastemperaturmodell},$F997,1,9,DEZ,3,$00FF,K; /UMP,%UR_RAM1,XFAVG,{ High Byte limit filter},$F9B1,1,9,DEZ,3,$00FF,K; /UMP,%UR_RAM1,XFAVG_L,{ Low Byte limit filter},$F9B2,1,9,DEZ,3,$00FF,K; /UMP,%UR_RAM1,XFDDST,{ [DEZ] Flagregister DDST},$FDDA,1,9,DEZ,3,$00FF,K; /UMP,%UR_RAM1,XFDKHAHGR,{|16XI|SZ-Nr| stuetzstellensuchergebnis fuer},$FF4C,1,9,DEZ,3,$00FF,K; /UMP,%UR_RAM1,XFDLSA,{ Status Flags of the lambda probe aging},$F8D9,1,9,DEZ,3,$00FF,K; /UMP,%UR_RAM1,XFDTES1,{ Flag register for DTES},$FDA0,1,9,DEZ,3,$00FF,K; /UMP,%UR_RAM1,XFDTES2,{ Flag register for DTES},$FDA1,1,9,DEZ,3,$00FF,K; /UMP,%UR_RAM1,XFDTES2A,{ Flag register for DTES alt (aus XFDTES2)},$FDD7,1,9,DEZ,3,$00FF,K; /UMP,%UR_RAM1,XFDTES3,{ Flag register for DTES},$FDA2,1,9,DEZ,3,$00FF,K; /UMP,%UR_RAM1,XFDTES3A,{ Flag register for DTES alt (aus XFDTES3)},$FDD8,1,9,DEZ,3,$00FF,K; /UMP,%UR_RAM1,XFDTES4,{ Flag register for DTES},$FDA3,1,9,DEZ,3,$00FF,K; /UMP,%UR_RAM1,XFDTES5,{ Flag register for DTES},$FDA4,1,9,DEZ,3,$00FF,K; /UMP,%UR_RAM1,XFDTES6,{ Flag register for DTES},$FDA5,1,9,DEZ,3,$00FF,K; /UMP,%UR_RAM1,XFDTES6A,{ Flag register for DTES alt (aus XFDTES6)},$FDD9,1,9,DEZ,3,$00FF,K; /UMP,%UR_RAM1,XFDTES7,{ Flag register for DTES},$FDA6,1,9,DEZ,3,$00FF,K; /UMP,%UR_RAM1,XFESB1,{ Einschwingfilter XFESB1 ( 4 Byte - Größe ! )},$FB69,516,9,DEZ,3,$FFFF,K; /UMP,%UR_RAM1,XFESB2,{ Einschwingfilter XFESB2 ( 4 Byte - Größe ! )},$FB6D,516,9,DEZ,3,$FFFF,K; /UMP,%UR_RAM1,XFHO,{height-factor from the pressure sensor, normalized |FKT128|},$F8F2,1,51,FKT128,3,$00FF,K; /UMP,%UR_RAM1,XFHOKST,{ Height correction for injection start |umr:fkt128|},$F8D2,1,51,FKT128,3,$00FF,K; /UMP,%UR_RAM1,XFHOORG,{original ADC value of high altitude sensor},$F8FA,1,267,U_8B_ADC,3,$00FF,K; /UMP,%UR_RAM1,XFHO_REF,{faktor hoehe vom drucksensor, alt für Gradient-},$F8F3,1,51,FKT128,3,$00FF,K; /UMP,%UR_RAM1,XFIXEMPF,{ Empfangender Fixcode (optional lernbar)},$FF83,259,9,DEZ,3,$00FF,K; /UMP,%UR_RAM1,XFKH,{High-Faktor \ |reihenfolge},$F931,258,9,DEZ,3,$FFFF,K; /UMP,%UR_RAM1,XFKL,{Low_faktor >8000H*2^1 := 1 |nicht},$F932,1,9,DEZ,3,$00FF,K; /UMP,%UR_RAM1,XFKMLM,{ Maximaler Korrekturfaktor},$F947,1,54,FKT1_256,3,$00FF,K; /UMP,%UR_RAM1,XFKMLMA,{ Korrekturfaktor},$F948,1,54,FKT1_256,3,$00FF,K; /UMP,%UR_RAM1,XFKMLMAL,{ Korrekturfaktor LOW-Wert},$F949,1,9,DEZ,3,$00FF,K; /UMP,%UR_RAM1,XFKORL,{},$F824,1,9,DEZ,3,$00FF,K; /UMP,%UR_RAM1,XFKORR,{ Korrekturfaktor/Shiftkonstante},$F823,258,9,DEZ,3,$FFFF,K; /UMP,%UR_RAM1,XFKTNS,{result of after start enrichment |umr:fkt32 + 1|},$FAF7,1,68,FKT32,3,$00FF,K; /UMP,%UR_RAM1,XFKTWL,{result of hot-running enrichment |umr:fkt128 + 1|},$FAF6,1,51,FKT128,3,$00FF,K; /UMP,%UR_RAM1,XFKVS,{ Flagregister der DKVS},$FA9F,1,9,DEZ,3,$00FF,K; /UMP,%UR_RAM1,XFK_ANR,{ Enrichment factor in knocking |umr:FKT128|},$FA85,1,51,FKT128,3,$00FF,K; /UMP,%UR_RAM1,XFLAG0,{general flag byte -> DSEG-overlay: oflag0},$F879,1,9,DEZ,3,$00FF,K; /UMP,%UR_RAM1,XFLAG1,{general flag byte -> DSEG-overlay: oflag1},$F87A,1,9,DEZ,3,$00FF,K; /UMP,%UR_RAM1,XFLAG2,{general flag byte -> DSEG-overlay: oflag2},$F87B,1,9,DEZ,3,$00FF,K; /UMP,%UR_RAM1,XFLAG7,{flagregister, -> dseg: FLAG7},$F846,1,9,DEZ,3,$00FF,K; /UMP,%UR_RAM1,XFLASHCK,{ copy of data: sgidb2 },$FE00,266,9,DEZ,3,$00FF,K; /UMP,%UR_RAM1,XFLDTE,{ Leckfaktor bei Tank vent diagnosis},$FDA8,1,51,FKT128,3,$00FF,K; /UMP,%UR_RAM1,XFLGKAT,{ Flagregister der Katkonvertierungsueberwachung},$F9CA,1,9,DEZ,3,$00FF,K; /UMP,%UR_RAM1,XFLGMFB,{flagword MIL-request},$F8BE,1,9,DEZ,3,$00FF,K; /UMP,%UR_RAM1,XFLGTIAB,{ Ti-Shutoffbits, !!! allocated like DIS_TI in dseg !!!},$FB32,1,9,DEZ,3,$00FF,K; /UMP,%UR_RAM1,XFLG_APP,{ Monitor LU-Status},$FB2E,1,9,DEZ,3,$00FF,K; /UMP,%UR_RAM1,XFLRANZ,{ Gesamtfehleranzahl im Fehlerspeicher},$FB78,1,9,DEZ,3,$00FF,K; /UMP,%UR_RAM1,XFLRSPEICH,{ Fehlerbitspeicher des CJ400-Baustein i},$FDE1,259,9,DEZ,3,$00FF,K; /UMP,%UR_RAM1,XFPSAB,{ Adaptionsfaktor für Sollwertabsenkung |umr:F},$FFCF,1,59,FKT255,3,$00FF,K; /UMP,%UR_RAM1,XFPSAB0,{},$FFCF,1,59,FKT255,3,$00FF,K; /UMP,%UR_RAM1,XFPSAB1,{},$FFD0,1,59,FKT255,3,$00FF,K; /UMP,%UR_RAM1,XFPSAB2,{},$FFD1,1,59,FKT255,3,$00FF,K; /UMP,%UR_RAM1,XFPSAB3,{},$FFD2,1,59,FKT255,3,$00FF,K; /UMP,%UR_RAM1,XFPSAB4,{},$FFD3,1,59,FKT255,3,$00FF,K; /UMP,%UR_RAM1,XFPSABN,{ Faktor für Sollwertabsenkung ohne Adapion |umr:F},$FFD7,1,59,FKT255,3,$00FF,K; /UMP,%UR_RAM1,XFPSRED,{ Faktor height correction psoll |umr:FKT128|},$FFC7,1,51,FKT128,3,$00FF,K; /UMP,%UR_RAM1,XFR,{ Lambdaregelfaktor, enthält: FR_H},$F812,1,51,FKT128,3,$00FF,K; /UMP,%UR_RAM1,XFRA,{ mult. Adaptionsfaktor LRA (Hoehenfehler)},$F800,1,51,FKT128,3,$00FF,K; /UMP,%UR_RAM1,XFRA1,{ (=256-XFRA) Redundant abgespeichert: XFRA},$F803,1,9,DEZ,3,$00FF,K; /UMP,%UR_RAM1,XFRAZS,{ FRA bei Start des Ueberwachungstimers FRA},$FAA6,1,51,FKT128,3,$00FF,K; /UMP,%UR_RAM1,XFRAZS_L,{ low},$FAA7,1,9,DEZ,3,$00FF,K; /UMP,%UR_RAM1,XFRA_L,{ low Byte zu XFRA (= XFRA+1)},$F801,258,9,DEZ,3,$FFFF,K; /UMP,%UR_RAM1,XFRBS,{ Regelfaktorwert nach einem Reglersprung},$F81D,1,51,FKT128,3,$00FF,K; /UMP,%UR_RAM1,XFRDTER,{ Faktor Regelung Referenz für TE-Diagnose},$FDA9,1,51,FKT128,3,$00FF,K; /UMP,%UR_RAM1,XFREQUENT,{ message to big for one frame --> split},$FBAC,1,9,DEZ,3,$00FF,K; /UMP,%UR_RAM1,XFRFR,{ freeze frame for isocarb 9141-2 },$FE0A,269,9,DEZ,3,$00FF,K; /UMP,%UR_RAM1,XFRFR_E,{},$FE17,1,9,DEZ,3,$00FF,K; /UMP,%UR_RAM1,XFRMWH,{ Mean value of the lambda controller},$F810,1,51,FKT128,3,$00FF,K; /UMP,%UR_RAM1,XFRMWL,{ low Byte zu XFRMWH (= XFRMWH+1)},$F811,1,9,DEZ,3,$00FF,K; /UMP,%UR_RAM1,XFRMX,{ Maximalwert des Regelfaktors der LR (umschaltbar)},$F817,1,9,DEZ,3,$00FF,K; /UMP,%UR_RAM1,XFRSLSA,{[FKT128] Lambda control factor reference value for DSLS},$FAB9,1,51,FKT128,3,$00FF,K; /UMP,%UR_RAM1,XFR_L,{ FR_L},$F813,1,9,DEZ,3,$00FF,K; /UMP,%UR_RAM1,XFR_TE,{TE-Flagregister (-> dseg:fr_te)},$F848,1,9,DEZ,3,$00FF,K; /UMP,%UR_RAM1,XFR_TE1,{TE-Flagregister1 (-> dseg:fr_te1)},$F847,1,9,DEZ,3,$00FF,K; /UMP,%UR_RAM1,XFSDTE,{ level information aus TE-Diagnose},$FDCF,1,9,DEZ,3,$00FF,K; /UMP,%UR_RAM1,XFSP,{FLRZ Fehler mit ADBFLR2 Byte pro Fehler},$FE1E,556,9,DEZ,3,$00FF,K; /UMP,%UR_RAM1,XFSPEND,{Fehlerendepointer},$FF4A,258,9,DEZ,3,$FFFF,K; /UMP,%UR_RAM1,XFSTB2,{High-Faktor \ |reihenfolge},$F92E,258,49,FK65536,3,$FFFF,K; /UMP,%UR_RAM1,XFSTB2L,{Low-Faktor >8000H*2^1 := 1 |nicht},$F92F,1,9,DEZ,3,$00FF,K; /UMP,%UR_RAM1,XFSWALUV,{ providing FSWALUV},$FB2B,1,9,DEZ,3,$00FF,K; /UMP,%UR_RAM1,XFTEADH,{Fuel loading | 128/256 |},$F850,1,148,SIG64,3,$00FF,K; /UMP,%UR_RAM1,XFTEADL,{ ' | 128/2^24 |},$F852,1,9,DEZ,3,$00FF,K; /UMP,%UR_RAM1,XFTEADM,{ ' | 128/2^16 |},$F851,1,9,DEZ,3,$00FF,K; /UMP,%UR_RAM1,XFTEAH,{Faktor Gemischadaption bei Tankentlüftung | 1/128 |},$F858,1,51,FKT128,3,$00FF,K; /UMP,%UR_RAM1,XFTEAL,{ ' ' ' ' | 1/2^15 |},$F859,1,9,DEZ,3,$00FF,K; /UMP,%UR_RAM1,XFTEFMA,{fuel rate |umr:FKT128, 1/128|},$F849,1,51,FKT128,3,$00FF,K; /UMP,%UR_RAM1,XFTEFVAB,{Spülratenbegrenzung | 0.000061 |},$F85B,1,9,DEZ,3,$00FF,K; /UMP,%UR_RAM1,XFTEFVAH,{Regenerieranteil | 1/256 |},$F84F,1,79,FKT_256_2,3,$00FF,K; /UMP,%UR_RAM1,XFTEFVAH_A,{Altes FTEFVAH als Input für FZQTE | 1/256 |},$F85F,1,9,DEZ,3,$00FF,K; /UMP,%UR_RAM1,XFTEFVAL,{Regenerieranteil | 1/65536 |},$F84E,1,9,DEZ,3,$00FF,K; /UMP,%UR_RAM1,XFTEFVAMX,{maximale Spülrate (absolute Begrenzung)|umr: FKT256 |},$F865,1,60,FKT256,3,$00FF,K; /UMP,%UR_RAM1,XFTV,{ aktuelle Gewichtung der TV-Verschiebung aus Lambdaregelung h.K},$FBC0,1,51,FKT128,3,$00FF,K; /UMP,%UR_RAM1,XFWZKHL,{interpolationsergebnis aus KFFWZKHL |fkt256|},$FCDA,1,60,FKT256,3,$00FF,K; /UMP,%UR_RAM1,XFWZKHT,{interpolationsergebnis aus KFFWZKHT |fkt256|},$FCDB,1,60,FKT256,3,$00FF,K; /UMP,%UR_RAM1,XFZABGS_H,{ Zwischensumme Aussetzer emission-relevant HOB},$FB48,1,9,DEZ,3,$00FF,K; /UMP,%UR_RAM1,XFZABGS_L,{ Zwischensumme Aussetzer emission-relevant LOB},$FB49,1,9,DEZ,3,$00FF,K; /UMP,%UR_RAM1,XFZANSM1,{interpolationsergebnis aus fzansm1 |FKT256|},$FCD2,1,60,FKT256,3,$00FF,K; /UMP,%UR_RAM1,XFZBFTEB,{Faktor zur Begr. der Lerngeschw. von FTEAD | 1/256 |},$F85C,1,9,DEZ,3,$00FF,K; /UMP,%UR_RAM1,XFZML,{ Korrekturfaktor fuer Absteuerzeitkonstante},$F94B,1,51,FKT128,3,$00FF,K; /UMP,%UR_RAM1,XFZQTEFR,{Wichtungsfakt. für Zeitkonst. der Aufsteuerr. |},$F860,1,9,DEZ,3,$00FF,K; /UMP,%UR_RAM1,XFZ_LDR,{ debounce counter 2 |umr:SEC72, 72ms|},$FFCC,1,143,SEC60,3,$00FF,K; /UMP,%UR_RAM1,XFZ_PMX,{ debounce counter 1 |umr:SEC72, 72ms|},$FFCB,1,143,SEC60,3,$00FF,K; /UMP,%UR_RAM1,XFZ_ULS,{ debounce counter for Overcharge protection |umr:S},$FFD8,1,143,SEC60,3,$00FF,K; /UMP,%UR_RAM1,XF_CAN,{},$FCEE,1,9,DEZ,3,$00FF,K; /UMP,%UR_RAM1,XF_DLE,{ Statusflagregister, Belegung siehe OV-ram F_DLE},$FAF8,1,9,DEZ,3,$00FF,K; /UMP,%UR_RAM1,XF_GEAR1,{ Flag register 1 for gearbox state},$FCE5,1,9,DEZ,3,$00FF,K; /UMP,%UR_RAM1,XF_GEAR2,{ Flag register 2 for gearbox state},$FCE6,1,9,DEZ,3,$00FF,K; /UMP,%UR_RAM1,XF_HLS,{Flag register for Probe heater control},$FFF4,1,9,DEZ,3,$00FF,K; /UMP,%UR_RAM1,XF_KOM,{ Flag byte for communication control},$FB71,1,9,DEZ,3,$00FF,K; /UMP,%UR_RAM1,XF_KR,{ Overlay KR-Flagbyte},$FA80,1,9,DEZ,3,$00FF,K; /UMP,%UR_RAM1,XF_LFR,{ Flagregister 'LFR' |dez|},$F836,1,9,DEZ,3,$00FF,K; /UMP,%UR_RAM1,XF_LMR,{ Flagregister 'LMR'},$FFBD,1,9,DEZ,3,$00FF,K; /UMP,%UR_RAM1,XF_LR,{ Flagregister der LR im XRAM},$F820,1,9,DEZ,3,$00FF,K; /UMP,%UR_RAM1,XF_LR2,{ Flagregister 2 der LR im XRAM},$F827,1,9,DEZ,3,$00FF,K; /UMP,%UR_RAM1,XF_LRKA,{.#*>UR [DEZ] ;Flagwort LRKA},$FBD7,1,9,DEZ,3,$00FF,K; /UMP,%UR_RAM1,XF_LSHK,{ Flagregister der Lambdasondenüberwachung behind cat (-> F_DLS) },$F960,1,9,DEZ,3 $00FF,K; /UMP,%UR_RAM1,XF_LSSA,{ Flagregister der DLSSA},$FAC8,1,9,DEZ,3,$00FF,K; /UMP,%UR_RAM1,XF_LSVK,{ Flagregister der Lambdasondenüberwachung vor Kat (-> F_DLS)},$F94C,1,9,DEZ,3,$00FF,K; /UMP,%UR_RAM1,XF_OVB,{ Flagregister 'Overboost'},$FFBE,1,9,DEZ,3,$00FF,K; /UMP,%UR_RAM1,XF_SLS,{},$F96C,1,9,DEZ,3,$00FF,K; /UMP,%UR_RAM1,XF_ST,{Start/Nachstart-Flaggen ->dseg:F_ST},$F835,1,9,DEZ,3,$00FF,K; /UMP,%UR_RAM1,XF_TC1,{ Flagregister 1 von Transmission Control Unit},$FCE3,1,9,DEZ,3,$00FF,K; /UMP,%UR_RAM1,XF_TC2,{ Flagregister 2 von Transmission Control Unit},$FCE4,1,9,DEZ,3,$00FF,K; /UMP,%UR_RAM1,XF_UK,{flaggen |binaer|},$F9DF,1,9,DEZ,3,$00FF,K; /UMP,%UR_RAM1,XF_WDK,{ Flagregister fuer DK-Poti-Funktionen},$F921,1,9,DEZ,3,$00FF,K; /UMP,%UR_RAM1,XF_WFS,{ Flagregister for immobilizer},$FAE3,1,9,DEZ,3,$00FF,K; /UMP,%UR_RAM1,XGKOMP,{ Kompensationsgradient},$FDAA,1,80,FKT_256_2D,3,$00FF,K; /UMP,%UR_RAM1,XGUDAB,{ Unterdruckabbaugradient},$FDAB,1,80,FKT_256_2D,3,$00FF,K; /UMP,%UR_RAM1,XGUDAUF,{ Unterdruckaufbaugradient},$FDAC,1,61,FKT256_10D,3,$00FF,K; /UMP,%UR_RAM1,XHADR,{ 1},$F892,1,9,DEZ,3,$00FF,K; /UMP,%UR_RAM1,XHEILZEIT,{ Heilungszeitzaehler [Anzahl der Hintergrundprog.]},$FDE0,1,9,DEZ,3,$00FF,K; /UMP,%UR_RAM1,XHFM,{},$F944,1,9,DEZ,3,$00FF,K; /UMP,%UR_RAM1,XHFMCTRL,{ Kennung fuer Initialisierung der HFM-Korrektur,},$F945,1,9,DEZ,3,$00FF,K; /UMP,%UR_RAM1,XHOEHENGR8,{|16XI|SZ-Nr| X_FDKHABH-verteilung 8 stuetzen},$FF63,1,9,DEZ,3,$00FF,K; /UMP,%UR_RAM1,XI,{ XRAM-Speicher fuer I(KFRI): Control Slope},$F814,1,9,DEZ,3,$00FF,K; /UMP,%UR_RAM1,XIMLATM,{ air mass integrator},$F998,1,119,M_LUFT20,3,$00FF,K; /UMP,%UR_RAM1,XIMLKA,{.#*>UR [M_AIRM43] ;ML-Integrator},$FBD9,258,116,M_AIRM43,3,$FFFF,K; /UMP,%UR_RAM1,XINOFF,{ Integratorstartwert |umr: U5VQ|},$FA01,1,258,U5VQ,3,$00FF,K; /UMP,%UR_RAM1,XINOFF1,{ Integratorstartwert Copie |umr: U5VQ|},$FA02,1,258,U5VQ,3,$00FF,K; /UMP,%UR_RAM1,XINTLOW,{ Integrator-Lowbyte},$FDA7,1,9,DEZ,3,$00FF,K; /UMP,%UR_RAM1,XISTERR_CO,{ Entprellung Integr.startwertfehler},$FA97,1,9,DEZ,3,$00FF,K; /UMP,%UR_RAM1,XIVHI,{ Regler-Integrator High |umr:IVHI, (cts-128*0.4kg/h|},$F839,1,91,IVHI,3,$00FF,K; /UMP,%UR_RAM1,XIVLO,{ Regler-Integrator Low},$F83A,1,9,DEZ,3,$00FF,K; /UMP,%UR_RAM1,XIVMEM,{ Puffer fuer Reglerintegrator |umr:IVHI, (cts-128*0.4kg/h|},$F83C,1,9,DEZ,3,$00FF,K; /UMP,%UR_RAM1,XIVZABG,{ Intervallzaehler Abgasrelvant},$FB44,1,9,DEZ,3,$00FF,K; /UMP,%UR_RAM1,XIVZKATH,{ Intervallzaehler Katschaedigiend HOB},$FB45,1,9,DEZ,3,$00FF,K; /UMP,%UR_RAM1,XIVZKATL,{ Intervallzaehler Katschaedigiend LOB},$FB46,1,9,DEZ,3,$00FF,K; /UMP,%UR_RAM1,XIXWKKFM,{ Index High Byte des aktuellen Elements der Filtermatrix},$F9B3,1,9,DEZ,3,$00FF,K; /UMP,%UR_RAM1,XKATRDYZ,{ Readytimer: 0, wenn Ergebnis Katkonvertierung vorliegt},$F9C6,1,9,DEZ,3,$00FF,K; /UMP,%UR_RAM1,XKATRDYZ_L,{ Readytimer low Byte},$F9C7,1,9,DEZ,3,$00FF,K; /UMP,%UR_RAM1,XKATSPRZ,{ Blocking the timer Kat Conversion Monitor feature},$F9CB,1,9,DEZ,3,$00FF,K; /UMP,%UR_RAM1,XKEYEB,{ Ebenenzaehler Keybyte-Ausgabe DOPPELBELEGUNG !},$F88A,1,9,DEZ,3,$00FF,K; /UMP,%UR_RAM1,XKFAK1,{ one for all Cyl. K-factors |umr: KEKRSW|},$FA11,1,9,DEZ,3,$00FF,K; /UMP,%UR_RAM1,XKFAMALU,{ Kennfeldwert KFAMALU (Absenkungsfaktor für Lur-Wert)},$FB23,1,9,DEZ,3,$00FF,K; /UMP,%UR_RAM1,XKFANALU,{ Anzahl Verbrennungen für Ausblendung nach Aussetzer},$FB0D,1,9,DEZ,3,$00FF,K; /UMP,%UR_RAM1,XKFDYWV,{ Dynamic derivative retard |umr:ZWONN|},$FA83,1,9,DEZ,3,$00FF,K; /UMP,%UR_RAM1,XKFKSWF,{ Bereitstellung KFKSWF},$FB47,1,9,DEZ,3,$00FF,K; /UMP,%UR_RAM1,XKFLURM,{ LUM-Schwelle zur MehrfachMisfire detection |LU_QLU|},$FB0B,1,104,LU_QLU,3,$00FF,K; /UMP,%UR_RAM1,XKFTATX,{Max. Tastverhältnis aus KF |umf:FKT256,},$F853,1,163,TAU,3,$00FF,K; /UMP,%UR_RAM1,XKR,{},$FA00,1,9,DEZ,3,$00FF,K; /UMP,%UR_RAM1,XKRMNCOU,{ Hintergrundprog. Zaehler fuer Nulltest},$FA03,1,9,DEZ,3,$00FF,K; /UMP,%UR_RAM1,XKSTA0,{ Cold-start enrichment Bereich 0},$FA8A,1,51,FKT128,3,$00FF,K; /UMP,%UR_RAM1,XKSTA0W,{ Cold-start enrichment Arbeitsram Bereich 0},$FA8D,1,51,FKT128,3,$00FF,K; /UMP,%UR_RAM1,XKSTA1,{ Cold-start enrichment Bereich 1},$FA8B,1,51,FKT128,3,$00FF,K; /UMP,%UR_RAM1,XKSTA1W,{ Cold-start enrichment Arbeitsram Bereich 1},$FA8E,1,51,FKT128,3,$00FF,K; /UMP,%UR_RAM1,XKSTA2,{ Cold-start enrichment Bereich 2},$FA8C,1,51,FKT128,3,$00FF,K; /UMP,%UR_RAM1,XKSTA2W,{ Cold-start enrichment Arbeitsram Bereich 2},$FA8F,1,51,FKT128,3,$00FF,K; /UMP,%UR_RAM1,XKSTAA,{ aktuell gueltige Cold-start enrichment},$FA92,1,51,FKT128,3,$00FF,K; /UMP,%UR_RAM1,XKSTAAGR,{|16XI|SZ-Nr| XKSTAA-verteilung (STADAP)},$FCC3,1,9,DEZ,3,$00FF,K; /UMP,%UR_RAM1,XKVAPULS,{Vorkomma-Speicher fuer KVA-Impuls},$F876,1,9,DEZ,3,$00FF,K; /UMP,%UR_RAM1,XKVAPULSN,{Nachkomma-Speicher fuer KVA-Impuls},$F877,1,9,DEZ,3,$00FF,K; /UMP,%UR_RAM1,XKVA_H,{high-Speicher fuer nicht-Ubattkorrigierte TI_H |umr:ti_h_25},$F874,1,177,TI_H_256,3,$00FF,K; /UMP,%UR_RAM1,XKVA_L,{low-Speicher fuer nicht-Ubattkorrigierte TI_H |umr:ti_h|},$F875,1,176,TI_H,3,$00FF,K; /UMP,%UR_RAM1,XLAAFHH,{ High Byte Amplitudenfilterblock behind cat},$F9CE,1,268,U_LAMP,3,$00FF,K; /UMP,%UR_RAM1,XLAAFHL,{ Low Byte Amplitudenfilterblock behind cat},$F9CF,1,9,DEZ,3,$00FF,K; /UMP,%UR_RAM1,XLAAFVH,{ High Byte Amplitudenfilterblock vor Kat},$F9D2,1,268,U_LAMP,3,$00FF,K; /UMP,%UR_RAM1,XLAAFVL,{ Low Byte Amplitudenfilterblock vor Kat},$F9D3,1,9,DEZ,3,$00FF,K; /UMP,%UR_RAM1,XLADR,{ 11},$F893,267,9,DEZ,3,$00FF,K; /UMP,%UR_RAM1,XLAFHH,{ Filterbloecke und Lambdawerte behind cat},$F9CC,1,269,U_LSON,3,$00FF,K; /UMP,%UR_RAM1,XLAFHL,{ Low Byte Mittelwertfilterblock behind cat},$F9CD,1,9,DEZ,3,$00FF,K; /UMP,%UR_RAM1,XLAFVH,{ Filterbloecke und Lambdawerte vor Kat},$F9D0,1,269,U_LSON,3,$00FF,K; /UMP,%UR_RAM1,XLAFVL,{ Low Byte Mittelwertfilterblock vor Kat},$F9D1,1,9,DEZ,3,$00FF,K; /UMP,%UR_RAM1,XLASDRE,{ Adr. in Falltiefenkennfeld f. Hysterese retten},$FA08,1,9,DEZ,3,$00FF,K; /UMP,%UR_RAM1,XLENGTH,{ Received length information},$FF4D,1,9,DEZ,3,$00FF,K; /UMP,%UR_RAM1,XLOOP,{ Zwischenspeicher für Größe der MAIN-Schleife},$FB24,1,9,DEZ,3,$00FF,K; /UMP,%UR_RAM1,XLR,{ Anfangsadresse der XRAM-Zellen der Lambdaregelung},$F812,1,9,DEZ,3,$00FF,K; /UMP,%UR_RAM1,XLRACT,{ 100ms-Timer der LRA},$F80B,1,9,DEZ,3,$00FF,K; /UMP,%UR_RAM1,XLRAST,{ Schrittindikator der LRA},$F80C,1,9,DEZ,3,$00FF,K; /UMP,%UR_RAM1,XLRDSS,{ lock timer LR und LRA},$F822,1,9,DEZ,3,$00FF,K; /UMP,%UR_RAM1,XLRKAZ,{.#*>UR [DEZ] ;Zustandsbyte Automat LRKA},$FBD8,1,9,DEZ,3,$00FF,K; /UMP,%UR_RAM1,XLRST,{ Status Of Lambda Control (ISO-CARB-Interface)},$F821,1,9,DEZ,3,$00FF,K; /UMP,%UR_RAM1,XLSHT0,{.#*>UR [T_256TCONV] Testtimer0 der DLSH (F_TRLSH)},$F963,258,9,DEZ,3,$FFFF,K; /UMP,%UR_RAM1,XLSHT1,{.#*>UR [T_256TCONV] Testtimer1 der DLSH (T_SBBHK,T_BRLSH,T_KSUBH,T_KSMH)},$F965,258,9,DEZ,3 $FFFF,K; /UMP,%UR_RAM1,XLSHT2,{.#*>UR [T_256TCONV] Testtimer2 der DLSH (T_KSAH)},$F967,258,9,DEZ,3,$FFFF,K; /UMP,%UR_RAM1,XLSSAEX,{ Wartezeittimer für Freigabe Extremwertausgabe},$FACD,1,9,DEZ,3,$00FF,K; /UMP,%UR_RAM1,XLSSAEXU,{ Wartezeittimeruntersetzung},$FACE,1,9,DEZ,3,$00FF,K; /UMP,%UR_RAM1,XLSVK,{.#*>UR [DEZ] Zusatzflagregister der DLSV},$F94E,1,9,DEZ,3,$00FF,K; /UMP,%UR_RAM1,XLSVT0,{.#*>UR [T_256TCONV] Testtimer0 der DLSV (F_TRLSV)},$F952,258,9,DEZ,3,$FFFF,K; /UMP,%UR_RAM1,XLSVT1,{.#*>UR [T_256TCONV] Testtimer1 der DLSV (T_SBBVK,T_BRLSV,T_KSUBV,T_KSMV)},$F954,258,9,DEZ,3 $FFFF,K; /UMP,%UR_RAM1,XLSVT2,{.#*>UR [T_256TCONV] Testtimer2 der DLSV (T_LSPVS,T_NOPVS)},$F956,258,9,DEZ,3,$FFFF,K; /UMP,%UR_RAM1,XLSVT3,{.#*>UR [T_256TCONV] Testtimer3 der DLSV (T_BHUBV)},$F958,258,9,DEZ,3,$FFFF,K; /UMP,%UR_RAM1,XLSVT4,{.#*>UR [T_256TCONV] Testtimer4 der DLSV (T_KSAV)},$F95A,258,9,DEZ,3,$FFFF,K; /UMP,%UR_RAM1,XLUAFLG,{ Flagregister LU-Adaption},$FB4C,1,9,DEZ,3,$00FF,K; /UMP,%UR_RAM1,XLUCHRO,{ Chronologiestack fuer MEDIAN},$FB11,261,9,DEZ,3,$00FF,K; /UMP,%UR_RAM1,XLUDIF,{ Differenzenstack fuer MEDIAN},$FB16,266,9,DEZ,3,$00FF,K; /UMP,%UR_RAM1,XLUFLG,{ Flagwort Misfire detection},$FB00,1,9,DEZ,3,$00FF,K; /UMP,%UR_RAM1,XLUFLRA,{ Fehlerzaehler emission-relevant},$FB30,1,9,DEZ,3,$00FF,K; /UMP,%UR_RAM1,XLUFLRK,{ Fehlerzaehler katschaedigend},$FB31,1,9,DEZ,3,$00FF,K; /UMP,%UR_RAM1,XLUM,{ Filter für MehrfachMisfire detection |Umr: LU_QLU|},$FB09,1,104,LU_QLU,3,$00FF,K; /UMP,%UR_RAM1,XLUMON,{Monitortrommel fuer EDASE},$FD00,416,9,DEZ,3,$00FF,K; /UMP,%UR_RAM1,XLUR,{ Laufunruhe - Referenzwert},$FB01,1,104,LU_QLU,3,$00FF,K; /UMP,%UR_RAM1,XLURKF,{ Kennfeldwert LUR |LU_QLU|},$FB21,1,104,LU_QLU,3,$00FF,K; /UMP,%UR_RAM1,XLURMINN,{ Kennfeldwert LURMINN},$FB22,1,9,DEZ,3,$00FF,K; /UMP,%UR_RAM1,XLUSTACK,{Trommelspeicher tn-Eintraege, 16 NW-Umdrehungen},$FC00,416,9,DEZ,3,$00FF,K; /UMP,%UR_RAM1,XLUSTACK_M,{},$FCA0,1,9,DEZ,3,$00FF,K; /UMP,%UR_RAM1,XLUTS1,{ Lut(n-1) fuer Mehrfachaussetzer},$FB04,1,9,DEZ,3,$00FF,K; /UMP,%UR_RAM1,XLUTS2,{ Lut(n-2) fuer Mehrfachaussetzer},$FB03,1,9,DEZ,3,$00FF,K; /UMP,%UR_RAM1,XLUT_APP,{ Monitor LUT-Wert},$FB2F,1,104,LU_QLU,3,$00FF,K; /UMP,%UR_RAM1,XM16FZLAAF,{mit zlaaf gefiltertes M16 (xpt10) |hi: 1.6kg/h|},$F9DC,1,106,M16,3,$00FF,K; /UMP,%UR_RAM1,XMAINFA1,{FLAGS OF THE OVERLAY RAM},$F8B2,1,9,DEZ,3,$00FF,K; /UMP,%UR_RAM1,XMAINFA2,{FLAGS OF THE OVERLAY RAM},$F8B3,1,9,DEZ,3,$00FF,K; /UMP,%UR_RAM1,XMAINFA3,{FLAGS OF THE OVERLAY RAM},$F8B4,1,9,DEZ,3,$00FF,K; /UMP,%UR_RAM1,XMAINFA4,{ FLAGS OF THE OVERLAY RAM},$F8B5,1,9,DEZ,3,$00FF,K; /UMP,%UR_RAM1,XMAINFA5,{ FLAGS OF THE OVERLAY RAM},$F8B6,1,9,DEZ,3,$00FF,K; /UMP,%UR_RAM1,XMATAZ,{Massetast-Zeit (in 10ms) MCMESS-Reizung},$F8EB,1,9,DEZ,3,$00FF,K; /UMP,%UR_RAM1,XMCCHKS,{Checksumme f.Übertragungen v.Funktionsmodus ausgelagert},$F8F0,1,9,DEZ,3,$00FF,K; /UMP,%UR_RAM1,XMCDUMMY,{Ziel f.alle Verstellungen, die unwirksam sein sollen},$F8F1,1,9,DEZ,3,$00FF,K; /UMP,%UR_RAM1,XMCSTAT,{from stored status McMess (irritation & 10ms program)},$F8ED,1,9,DEZ,3,$00FF,K; /UMP,%UR_RAM1,XMCTIME,{raster generation for timeout monitoring time (100ms)},$F8EA,1,9,DEZ,3,$00FF,K; /UMP,%UR_RAM1,XMCTOUT,{Timeout-Zähler (in 100ms)},$F8EC,1,9,DEZ,3,$00FF,K; /UMP,%UR_RAM1,XMCVAR1,{Variable 1 (Adreß-Lowbyte Funktionsmodus) ausgelagert},$F8EE,1,9,DEZ,3,$00FF,K; /UMP,%UR_RAM1,XMCVAR2,{Variable 2 (Adreß-Highbyte Funktionsmodus) ausgelagert},$F8EF,1,9,DEZ,3,$00FF,K; /UMP,%UR_RAM1,XMESNUL,{ Measurement window at zero test |umr: ZWON|},$FA04,1,290,ZWON,3,$00FF,K; /UMP,%UR_RAM1,XMESS1TIM,{ Zeitzähler für Message1-Zeitraster | 12 ms |},$FCE9,1,9,DEZ,3,$00FF,K; /UMP,%UR_RAM1,XMESS3TIM,{ Zeitzähler für Message3-Zeitraster | 12 ms |},$FCEA,1,9,DEZ,3,$00FF,K; /UMP,%UR_RAM1,XMESS4TIM,{ Zeitzähler für Message4-Zeitraster | 12 ms |},$FCEB,1,9,DEZ,3,$00FF,K; /UMP,%UR_RAM1,XMESS5TIM,{ Zeitzähler für Message5-Zeitraster | 12 ms |},$FCEC,1,9,DEZ,3,$00FF,K; /UMP,%UR_RAM1,XMESS6TIM,{ Zeitzähler für Message6-Zeitraster | 12 ms |},$FCED,1,9,DEZ,3,$00FF,K; /UMP,%UR_RAM1,XMFANF,{ Measurement window start |umr:zwon|},$FA0F,1,290,ZWON,3,$00FF,K; /UMP,%UR_RAM1,XMFLEN,{ Measurement window length |umr:zwon|},$FA10,1,290,ZWON,3,$00FF,K; /UMP,%UR_RAM1,XML_L,{load detection: diagnosed air mass LOB},$FCD5,1,110,ML,3,$00FF,K; /UMP,%UR_RAM1,XML_SCATT,{ Luftmasse in 4kg/h},$FBA8,1,9,DEZ,3,$00FF,K; /UMP,%UR_RAM1,XMOFFSTD,{ Integratorsteigung bei Nulltest fuer Diagnose |umr: STKLIN},$FA98,1,151,STKLINTNT,3,$00FF K; /UMP,%UR_RAM1,XMOFFSTF,{ Messfenster Offset Steigungsfaktor |umr: STKLINTNT|},$FA05,1,151,STKLINTNT,3,$00FF,K; /UMP,%UR_RAM1,XMULTIPLE,{ mulpiple services counter ( service ...0A ) },$FBAB,1,9,DEZ,3,$00FF,K; /UMP,%UR_RAM1,XMUSTER,{erstspritzermuster: hier wird in iniclc (ini1)},$FFE4,1,9,DEZ,3,$00FF,K; /UMP,%UR_RAM1,XN10ALT,{ N10 im vorangegangenen Synchro},$FA90,1,9,DEZ,3,$00FF,K; /UMP,%UR_RAM1,XNFSM,{solldrehzahl bei drive nfsm=f(tmot) |umr:N10, 10 [1/min]|},$F83F,1,121,N10,3,$00FF,K; /UMP,%UR_RAM1,XNLLM,{solldrehzahl nllm=f(tmot) |umr:N10, 10 [1/min]|},$F840,1,121,N10,3,$00FF,K; /UMP,%UR_RAM1,XNLTMOT,{direkt AD gewandelter Wert (NTC) |umr:u_8b_adc|},$F867,1,267,U_8B_ADC,3,$00FF,K; /UMP,%UR_RAM1,XNMOTGR1,{|16XI|SZ-Nr| NMOT-allocation 1},$FCC4,1,9,DEZ,3,$00FF,K; /UMP,%UR_RAM1,XNMOTGR28S,{|16XI|SZ-Nr| NMOT-allocation 2 8stützen},$FCC5,1,9,DEZ,3,$00FF,K; /UMP,%UR_RAM1,XNMOTGR38S,{|16XI|SZ-Nr| NMOT-allocation 3 8stützen},$FCC6,1,9,DEZ,3,$00FF,K; /UMP,%UR_RAM1,XNMOTGR8S,{|16XI|SZ-Nr| NMOT-allocation 8 stuetzen},$FF5F,1,9,DEZ,3,$00FF,K; /UMP,%UR_RAM1,XNMOTGR_LM,{|16XI|SZ-Nr| NMOT-allocation LMR},$FCCF,1,9,DEZ,3,$00FF,K; /UMP,%UR_RAM1,XNSA,{speed boost |umr:N, 40 [1/min]|},$F941,1,120,N,3,$00FF,K; /UMP,%UR_RAM1,XNSACTR,{ NSA-counter, high |umr:fkt256|},$FADE,1,60,FKT256,3,$00FF,K; /UMP,%UR_RAM1,XNSACTR_L,{ NSA-counter, low},$FADF,1,9,DEZ,3,$00FF,K; /UMP,%UR_RAM1,XNSOL,{ Solldrehzahl (dyn) |umr:N10, 10 [1/min]|},$F837,1,121,N10,3,$00FF,K; /UMP,%UR_RAM1,XNSOLL,{LFR:nsoll (einrechnung bei uns nicht vorhanden)},$F914,1,121,N10,3,$00FF,K; /UMP,%UR_RAM1,XNSTAMXHA,{interpolergebnis aus GKL nstamxha=f(hoehe)},$FCE2,1,9,DEZ,3,$00FF,K; /UMP,%UR_RAM1,XNSTKA,{|n40-tabelle: 8 werte, alle main1-raster},$FCA1,1,9,DEZ,3,$00FF,K; /UMP,%UR_RAM1,XNSTKE,{|n40-wert abzulegen. (alt - neu) ergibt},$FCA8,1,9,DEZ,3,$00FF,K; /UMP,%UR_RAM1,XNWE,{Rotational speed reinsertion |umr:N, 40 [1/min]|},$F940,1,120,N,3,$00FF,K; /UMP,%UR_RAM1,XNZEIG,{zeiger innerhalb folgender tabelle:},$FCA0,1,9,DEZ,3,$00FF,K; /UMP,%UR_RAM1,XN_LMR,{ speed range |umr:DEZ|},$FFC1,1,9,DEZ,3,$00FF,K; /UMP,%UR_RAM1,XOBDSTAT,{OBD-Statuswort},$F9A4,1,9,DEZ,3,$00FF,K; /UMP,%UR_RAM1,XOFFSET,{ Gesamte Offset Korrektur |umr: U5VQ|},$FA06,1,258,U5VQ,3,$00FF,K; /UMP,%UR_RAM1,XOVBSZ,{ Overboost-Zeitzähler |umr:S},$FFDA,1,142,SEC240,3,$00FF,K; /UMP,%UR_RAM1,XPCIHI,{ I-Anteil High |umr:INT = 65536*(PHYS[%]+10},$FFBF,258,103,LMRI,3,$FFFF,K; /UMP,%UR_RAM1,XPCILO,{ I-Anteil Low},$FFC0,1,9,DEZ,3,$00FF,K; /UMP,%UR_RAM1,XPCP,{ Regeldifferenz P_SOLL - P_IST |umr:TL|},$FFC3,1,180,TL,3,$00FF,K; /UMP,%UR_RAM1,XPCP_TV,{ P-Anteil |umr:LDR_P_PART]},$FFCA,1,102,LDR_P_PART,3,$00FF,K; /UMP,%UR_RAM1,XPDVRL,{Vorlagerungswinkel |umr:wsefi|},$F93A,1,278,WSEFI,3,$00FF,K; /UMP,%UR_RAM1,XPE0_IO_SP,{ Spiegel fuer Zustand Timerlogik/direkt beschreibba},$FDFB,1,9,DEZ,3,$00FF,K; /UMP,%UR_RAM1,XPHASE,{camshaft phase},$F832,1,9,DEZ,3,$00FF,K; /UMP,%UR_RAM1,XPHASERRZ,{count | number syncros | without phase change},$FCAC,1,147,SEGMENT,3,$00FF,K; /UMP,%UR_RAM1,XPMAINCOUN,{ Zeituntersetzung (Faktor 4) für Overboost-Zeiten},$FFDB,1,9,DEZ,3,$00FF,K; /UMP,%UR_RAM1,XPMN_ABS,{minimaler Druck, absolut während TPLAUS1-TPLAUS2},$F973,1,1,ACDRUCK,3,$00FF,K; /UMP,%UR_RAM1,XPMX_ABS,{maximaler Druck, absolut während TPLAUS1-TPLAUS2},$F974,1,1,ACDRUCK,3,$00FF,K; /UMP,%UR_RAM1,XPP,{ XRAM-Speicher fuer P(KFRP): regulator jump height},$F815,1,9,DEZ,3,$00FF,K; /UMP,%UR_RAM1,XPREF,{ Druckreferenzwert},$FDD6,1,133,P_TANK,3,$00FF,K; /UMP,%UR_RAM1,XPTE,{ Tankdruck Eingangssignal},$FDAD,1,133,P_TANK,3,$00FF,K; /UMP,%UR_RAM1,XPTHP,{ Tankdrucksignal hochpaßgefiltert},$FDAE,1,9,DEZ,3,$00FF,K; /UMP,%UR_RAM1,XPTTPG_S,{ Gesampelter XPTTP_H für gross leak-Prfg.},$FDC0,1,9,DEZ,3,$00FF,K; /UMP,%UR_RAM1,XPTTPIG,{ Integrator-Summenwert bei gross leak-Prfg.},$FDC3,1,9,DEZ,3,$00FF,K; /UMP,%UR_RAM1,XPTTPIK,{ Integrator-Summenwert bei KOMPGRAD-Prfg.},$FDC2,1,9,DEZ,3,$00FF,K; /UMP,%UR_RAM1,XPTTPK_S,{ Gesampelter XPTTP_H für KOMPGRAD-Prfg.},$FDBF,1,9,DEZ,3,$00FF,K; /UMP,%UR_RAM1,XPTTPS_H,{ PTTP gesampelt},$FDB1,1,9,DEZ,3,$00FF,K; /UMP,%UR_RAM1,XPTTPS_L,{},$FDB2,1,9,DEZ,3,$00FF,K; /UMP,%UR_RAM1,XPTTP_A,{ Vorangegangener Wert von XPTTP_H},$FDB3,1,9,DEZ,3,$00FF,K; /UMP,%UR_RAM1,XPTTP_H,{ Tankdrucksignal tiefpaßgefiltert (high)},$FDAF,1,133,P_TANK,3,$00FF,K; /UMP,%UR_RAM1,XPTTP_L,{ Tankdrucksignal tiefpaßgefiltert (low)},$FDB0,1,9,DEZ,3,$00FF,K; /UMP,%UR_RAM1,XPTTR,{ Differential pressure tank pressure - reference value},$FDC5,1,230,T_32D,3,$00FF,K; /UMP,%UR_RAM1,XPTTRF,{ Integrator-Summenwert bei fine leak-Prfg.},$FDC4,1,9,DEZ,3,$00FF,K; /UMP,%UR_RAM1,XPTTRF_S,{ Gesampelter XPTTR für fine leak-Prfg.},$FDC1,1,9,DEZ,3,$00FF,K; /UMP,%UR_RAM1,XPTTRK,{ Druckdifferenz Tankdruck-Referenz bei Kompgrad.},$FDB4,1,230,T_32D,3,$00FF,K; /UMP,%UR_RAM1,XPTTRMIN,{ Minimaler PTTR-Wert in fine leak-Prüfung},$FDB9,1,9,DEZ,3,$00FF,K; /UMP,%UR_RAM1,XPTTR_A,{Preceding value of XPTTR},$FDC6,1,9,DEZ,3,$00FF,K; /UMP,%UR_RAM1,XPTTR_S,{ Sampled value of XPTTR},$FDC7,1,9,DEZ,3,$00FF,K; /UMP,%UR_RAM1,XP_IST,{ Istwert (mit Begrenzung unten) |umr:TL|},$FFC2,1,180,TL,3,$00FF,K; /UMP,%UR_RAM1,XP_ISTT,{ (Simulierter Istwert der Regelstrecke)},$FFDF,260,9,DEZ,3,$FFFF,K; /UMP,%UR_RAM1,XP_SOLL,{ LMR-Sollwert mit adaptiver Absenkung |umr:TL|},$FFC8,1,180,TL,3,$00FF,K; /UMP,%UR_RAM1,XQADP,{Grundluftkorrektur |umr:IVHI, (cts-128*0.4kg/h|},$F842,1,91,IVHI,3,$00FF,K; /UMP,%UR_RAM1,XQADPM,{puffer f. relativbegrenzg. |umr:IVHI, (cts-128*0.4kg/h|},$F844,1,91,IVHI,3,$00FF,K; /UMP,%UR_RAM1,XQKLIMA,{steuerluft bei klimaeingriff |qstell, 0.4kg/h|},$F8FF,1,138,QSTELL,3,$00FF,K; /UMP,%UR_RAM1,XQLLS,{ Luftmassenstrom über Bypasssteller gefiltert |umr:QSTELL, 0.4 [kg},$F8D6,1,138,QSTELL,3,$00FF K; /UMP,%UR_RAM1,XQLLSGR,{ Source für damos Gruppen |2*main1|},$F8D3,1,9,DEZ,3,$00FF,K; /UMP,%UR_RAM1,XQSOL,{ LL-air mass setpoint |umr:QSTELL, 0.4 [kg/h]|},$F83B,1,138,QSTELL,3,$00FF,K; /UMP,%UR_RAM1,XQUSUH,{ermittelte quersumme zum vergleich mit weiteren},$FDFE,1,9,DEZ,3,$00FF,K; /UMP,%UR_RAM1,XQUSUL,{pruefungen. (high/low byte) |HEX|},$FDFF,1,9,DEZ,3,$00FF,K; /UMP,%UR_RAM1,XQVSKH,{delta-vorsteuerluft katheizen |umr: qstell|},$F8C9,1,138,QSTELL,3,$00FF,K; /UMP,%UR_RAM1,XQ_GEAR,{ Qualität von XVTC und Getriebezustand},$FCE7,1,9,DEZ,3,$00FF,K; /UMP,%UR_RAM1,XRAMEND,{Ende der verwendeten externen RAM-Zellen},$FFFF,1,9,DEZ,3,$00FF,K; /UMP,%UR_RAM1,XRAMZ,{ Buffer fuer auszugebende RAM-Zellen},$F900,272,9,DEZ,3,$00FF,K; /UMP,%UR_RAM1,XREC,{Pointer auf Empfangsbuffer/Empfangsbuffer },$FF74,266,9,DEZ,3,$00FF,K; /UMP,%UR_RAM1,XREC_END,{Pointer auf Ende von Empfangsbuffer },$FF7E,1,9,DEZ,3,$00FF,K; /UMP,%UR_RAM1,XREFINI,{ Referenzpegel Initialisierungswert |umr: U5VQ|},$FA0D,1,258,U5VQ,3,$00FF,K; /UMP,%UR_RAM1,XREFPE1,{ 5 Cyl.spez. Referenzpegel |umr: U5VQ|},$FA1C,1,258,U5VQ,3,$00FF,K; /UMP,%UR_RAM1,XREFPE2,{ 3},$FA1D,1,258,U5VQ,3,$00FF,K; /UMP,%UR_RAM1,XREFPE3,{ 1},$FA1E,1,258,U5VQ,3,$00FF,K; /UMP,%UR_RAM1,XREFPE4,{ 2},$FA1F,1,258,U5VQ,3,$00FF,K; /UMP,%UR_RAM1,XREFPE5,{ 4},$FA20,1,258,U5VQ,3,$00FF,K; /UMP,%UR_RAM1,XREFPN1,{ 5 Cyl.spez. normierter Referenzpegel},$FA21,1,9,DEZ,3,$00FF,K; /UMP,%UR_RAM1,XREFPN2,{ 3 Reihenfolge: High,Low Byte (16bit)},$FA23,1,9,DEZ,3,$00FF,K; /UMP,%UR_RAM1,XREFPN3,{ 1},$FA25,1,9,DEZ,3,$00FF,K; /UMP,%UR_RAM1,XREFPN4,{ 2},$FA27,1,9,DEZ,3,$00FF,K; /UMP,%UR_RAM1,XREFPN5,{ 4},$FA29,1,9,DEZ,3,$00FF,K; /UMP,%UR_RAM1,XRMIN,{ Min reference level at max. amplification |umr: U5VQ|},$FA0E,1,258,U5VQ,3,$00FF,K; /UMP,%UR_RAM1,XROMPRELL,{count number of test cycles ROM |DEZ|},$FDFD,1,9,DEZ,3,$00FF,K; /UMP,%UR_RAM1,XRPMCT,{ fortlaufender N-/TQ-Berechnungszähler | 1 ms |},$FCEF,1,9,DEZ,3,$00FF,K; /UMP,%UR_RAM1,XRZBIT,{empfangenes Bit des Reizworts},$F87F,1,9,DEZ,3,$00FF,K; /UMP,%UR_RAM1,XRZWORT,{ received 5-baud address},$FB72,1,9,DEZ,3,$00FF,K; /UMP,%UR_RAM1,XRZWRT,{received stimulus word},$F880,1,9,DEZ,3,$00FF,K; /UMP,%UR_RAM1,XSAJ,{ Referenzsegment SA(j) (LOB,HOB) |16-Bit sign|},$FB4F,514,11,DEZ_16,3,$FFFF,K; /UMP,%UR_RAM1,XSALRS,{ Eingefrorene Statusflags (Beginn der LRA)},$F80F,1,9,DEZ,3,$00FF,K; /UMP,%UR_RAM1,XSBJ,{ Adaptionsfaktor XSB(j) |Faktor 1 entspr. 2^15|},$FB51,514,45,F32ZAD,3,$FFFF,K; /UMP,%UR_RAM1,XSCATTPID1,{ == scatt mode1 pid1 data D},$FBA9,1,9,DEZ,3,$00FF,K; /UMP,%UR_RAM1,XSCJ,{ Adaptionsfaktor XSC(j) '},$FB53,514,45,F32ZAD,3,$FFFF,K; /UMP,%UR_RAM1,XSCWCTR,{ Extension counters fuer P2min},$FB75,1,9,DEZ,3,$00FF,K; /UMP,%UR_RAM1,XSDIF,{ Referenzsegmentdifferenz SA(j+2)-SA(j) (LOB,HOB)},$FB4D,514,12,DEZ_16S,3,$FFFF,K; /UMP,%UR_RAM1,XSDJ,{ Adaptionsfaktor XSD(j) '},$FB55,514,45,F32ZAD,3,$FFFF,K; /UMP,%UR_RAM1,XSDWFK_L,{speicherinhalt wandfilmdiff. kurzzeitterm |24us b.16MHz|},$F9E3,1,9,DEZ,3,$00FF,K; /UMP,%UR_RAM1,XSDWFL_L,{speicherinhalt wandfilmdiff. langzeitterm |24us b.16MHz|},$F9E1,1,9,DEZ,3,$00FF,K; /UMP,%UR_RAM1,XSEJ,{ Adaptionsfaktor XSE(j) '},$FB57,514,45,F32ZAD,3,$FFFF,K; /UMP,%UR_RAM1,XSEND,{Pointer auf Sendebuffer/Sendebuffer },$FF69,266,9,DEZ,3,$00FF,K; /UMP,%UR_RAM1,XSEND_END,{Pointer auf Ende von Sendebuffer },$FF73,1,9,DEZ,3,$00FF,K; /UMP,%UR_RAM1,XSFR2_SP,{ Spiegel fuer SFR2},$FDFC,1,9,DEZ,3,$00FF,K; /UMP,%UR_RAM1,XSFRMW,{ Eingefrorener Wert XFRMWH (Beginn der LRA)},$F80E,1,51,FKT128,3,$00FF,K; /UMP,%UR_RAM1,XSFZANSM,{interpolationsergebnis aus sfzansm |FKT256|},$FCD3,1,60,FKT256,3,$00FF,K; /UMP,%UR_RAM1,XSGIDB,{ SGID-Blockzaehler DOPPELBELEGUNG !},$F88A,1,9,DEZ,3,$00FF,K; /UMP,%UR_RAM1,XSK,{Shiftkonst. / |aendern!},$F933,1,9,DEZ,3,$00FF,K; /UMP,%UR_RAM1,XSK_CT,{},$F825,1,9,DEZ,3,$00FF,K; /UMP,%UR_RAM1,XSK_ST2,{Shiftkonst. / |veraendern!},$F930,1,9,DEZ,3,$00FF,K; /UMP,%UR_RAM1,XSLSPULS,{[TAU] duty cycle Secondary Air Valve},$FABB,1,163,TAU,3,$00FF,K; /UMP,%UR_RAM1,XSPDFRP,{},$FAF0,1,51,FKT128,3,$00FF,K; /UMP,%UR_RAM1,XSPDFRV,{},$FAF1,1,51,FKT128,3,$00FF,K; /UMP,%UR_RAM1,XSPERRT,{ Time counter for setpoint lowering |umr:S},$FFCD,1,143,SEC60,3,$00FF,K; /UMP,%UR_RAM1,XSPOFNUL,{ Entprellung Nulltestfehler geheilt},$FA9A,1,9,DEZ,3,$00FF,K; /UMP,%UR_RAM1,XSPOFSEN1,{ Entprellung Sensorfehler 1 geheilt},$FA9C,1,9,DEZ,3,$00FF,K; /UMP,%UR_RAM1,XSPOFSEN2,{ Entprellung Sensorfehler 2 geheilt},$FA9E,1,9,DEZ,3,$00FF,K; /UMP,%UR_RAM1,XSPSVK,{ [TMAIN1] Entstoer-Sperrtimer Periodendauerueberwachung},$F8DA,1,192,TMAIN1,3,$00FF,K; /UMP,%UR_RAM1,XSPSWFRP,{},$FAF2,1,51,FKT128,3,$00FF,K; /UMP,%UR_RAM1,XSPSWFRV,{},$FAF3,1,51,FKT128,3,$00FF,K; /UMP,%UR_RAM1,XSTABUF,{ Output buffer (fully used!)},$FB7F,285,9,DEZ,3,$00FF,K; /UMP,%UR_RAM1,XSTAFNUL,{ Entprellung Nulltestfehler vorhanden},$FA99,1,9,DEZ,3,$00FF,K; /UMP,%UR_RAM1,XSTAFSEN1,{ Entprellung Sensorfehler 1 vorhanden},$FA9B,1,9,DEZ,3,$00FF,K; /UMP,%UR_RAM1,XSTAFSEN2,{ Entprellung Sensorfehler 2 vorhanden},$FA9D,1,9,DEZ,3,$00FF,K; /UMP,%UR_RAM1,XSTAT,{ Status byte indicates the end of the adjustment values},$F920,1,8,B_XSTAT,3,$00FF,K; /UMP,%UR_RAM1,XSTATISCHF,{ Ultimately the detected error CJ400-block i},$FDE7,259,9,DEZ,3,$00FF,K; /UMP,%UR_RAM1,XSTEBUF,{ input buffer for serial communications},$FB9D,267,9,DEZ,3,$00FF,K; /UMP,%UR_RAM1,XSTEIGT,{ Zeitzähler für Sollwertanhebung um 1 Incr. |umr:S},$FFCE,1,143,SEC60,3,$00FF,K; /UMP,%UR_RAM1,XSTELBYTE1,{ various bits used in service B0*},$FBBB,1,9,DEZ,3,$00FF,K; /UMP,%UR_RAM1,XSTGGH,{Spülratenadaption pro 100 ms},$F862,1,9,DEZ,3,$00FF,K; /UMP,%UR_RAM1,XSTGGL,{},$F863,1,9,DEZ,3,$00FF,K; /UMP,%UR_RAM1,XSTHK,{ Status register of the lambda control h.K},$FBBE,1,9,DEZ,3,$00FF,K; /UMP,%UR_RAM1,XSTSWFS,{ WFS-Status: Motronic verriegelt/entriegelt},$FF86,258,9,DEZ,3,$FFFF,K; /UMP,%UR_RAM1,XSTUFB1,{ 5 Cyl.spez. Stufenbreite},$FA2B,1,9,DEZ,3,$00FF,K; /UMP,%UR_RAM1,XSTUFB2,{ 3},$FA2C,1,9,DEZ,3,$00FF,K; /UMP,%UR_RAM1,XSTUFB3,{ 1},$FA2D,1,9,DEZ,3,$00FF,K; /UMP,%UR_RAM1,XSTUFB4,{ 2},$FA2E,1,9,DEZ,3,$00FF,K; /UMP,%UR_RAM1,XSTUFB5,{ 4},$FA2F,1,9,DEZ,3,$00FF,K; /UMP,%UR_RAM1,XSTUFBR,{ zuendan zahl pro 1 inc frueh verstellung },$FA0C,1,9,DEZ,3,$00FF,K; /UMP,%UR_RAM1,XT1_MS,{ 1ms-counter},$FB76,1,9,DEZ,3,$00FF,K; /UMP,%UR_RAM1,XT1_MS_OV,{ Storage for overflows of 1ms numerator},$FB77,1,9,DEZ,3,$00FF,K; /UMP,%UR_RAM1,XTABGF,{.#*>UR [TABG] ; gefilt. Abgastemperatur},$FFE8,1,162,TABG,3,$00FF,K; /UMP,%UR_RAM1,XTABGM,{ Exhaust gas temperature model},$F99B,1,162,TABG,3,$00FF,K; /UMP,%UR_RAM1,XTADMM,{ [umr:t_1_sec]Zähler für 1. Stufenbreite},$FCFE,1,220,T_1_SEC,3,$00FF,K; /UMP,%UR_RAM1,XTADTE0,{ Sampling of the initial settling phase},$FDCD,1,9,DEZ,3,$00FF,K; /UMP,%UR_RAM1,XTADTEA,{ TEV duty from DTES},$FDCE,1,163,TAU,3,$00FF,K; /UMP,%UR_RAM1,XTALUST,{ Ausblend Zeit-Zaehler},$FB0F,1,172,TFREQ,3,$00FF,K; /UMP,%UR_RAM1,XTANFK,{ Verzoegerungszeit fuer den Einsatz von FKMLMA},$F946,1,9,DEZ,3,$00FF,K; /UMP,%UR_RAM1,XTANSGR,{|16XI|SZ-Nr| tans-verteilung},$FCD1,1,9,DEZ,3,$00FF,K; /UMP,%UR_RAM1,XTANSGR8S,{|16XI|SZ-Nr| TANS-verteilung 8 stuetzen},$FF64,1,9,DEZ,3,$00FF,K; /UMP,%UR_RAM1,XTANSORG,{tans without substutution value |umr:TFATEMP|},$F869,1,171,TFATEMP,3,$00FF,K; /UMP,%UR_RAM1,XTANSREF,{ Ansaugluft-Referenzwert für Plausiblitätstest |umr: TFATE},$FFB7,1,171,TFATEMP,3,$00FF,K; /UMP,%UR_RAM1,XTAUTO,{Entprellzeitzaehler |von TAUTO(idata) -> 0 mit q=main1|},$FAE0,1,9,DEZ,3,$00FF,K; /UMP,%UR_RAM1,XTBGR10S,{10-sec intervals (alternatively trip)},$F9A8,1,9,DEZ,3,$00FF,K; /UMP,%UR_RAM1,XTBGR500,{500ms-Takt fuer Entprellung und Blinken},$F9A5,1,9,DEZ,3,$00FF,K; /UMP,%UR_RAM1,XTBGRAF,{ Uebergabebyte fuer Fehlerheilung (Fensterabdeckung)},$FB4A,1,9,DEZ,3,$00FF,K; /UMP,%UR_RAM1,XTBGRDCY,{Driving-Cycle-Zaehler},$F9A7,1,9,DEZ,3,$00FF,K; /UMP,%UR_RAM1,XTBGRDTV,{ Uebergabebyte Fehlerheilung im Nachlauf DTV},$FAAC,1,9,DEZ,3,$00FF,K; /UMP,%UR_RAM1,XTBGRFRA,{ Uebergabebyte Fehlerheilung im Nachlauf FRA},$FAAA,1,9,DEZ,3,$00FF,K; /UMP,%UR_RAM1,XTBGRM5,{bisherige max. hi-laufzeit |q=6ms (cpuls/2)|},$F830,1,9,DEZ,3,$00FF,K; /UMP,%UR_RAM1,XTBGRTRA,{ Uebergabebyte Fehlerheilung im Nachlauf TRA},$FAAB,1,9,DEZ,3,$00FF,K; /UMP,%UR_RAM1,XTBGRTRP,{Trip-Zaehler},$F9A6,1,9,DEZ,3,$00FF,K; /UMP,%UR_RAM1,XTC6TESC,{ various values for scatt mode 6},$FAED,1,9,DEZ,3,$00FF,K; /UMP,%UR_RAM1,XTC6TESS,{ various values for scatt mode 6},$FAEE,1,9,DEZ,3,$00FF,K; /UMP,%UR_RAM1,XTC6TESW,{ various values for scatt mode 6},$FAEF,1,9,DEZ,3,$00FF,K; /UMP,%UR_RAM1,XTDDFAUS,{Entprellzeit fuer CDTDF-Austrag |TMAIN|},$F8F7,1,251,T_96_MS,3,$00FF,K; /UMP,%UR_RAM1,XTDDFEIN,{Entprellzeit fuer CDTDF-Eintrag |TMAIN|},$F8F6,1,251,T_96_MS,3,$00FF,K; /UMP,%UR_RAM1,XTDDFPL,{Ablaufende Zähler, bei 0 wird Plausi.-Fehler als},$F8F4,1,161,T8MAIN1,3,$00FF,K; /UMP,%UR_RAM1,XTDDFPLG,{Ablaufende Zähler, bei 0 wird Plausi.-Fehler},$F8F5,1,161,T8MAIN1,3,$00FF,K; /UMP,%UR_RAM1,XTDDST,{ [T_2TCONV] Entprelltimer DDST},$FDDB,1,9,DEZ,3,$00FF,K; /UMP,%UR_RAM1,XTDMM,{ [umr:t_1_sec]Zähler für Stufenbreite},$FCFF,1,220,T_1_SEC,3,$00FF,K; /UMP,%UR_RAM1,XTDQDP,{interpolationsergebnis aus sperrzeit TDQDPN},$F82F,1,193,TMESS_2O,3,$00FF,K; /UMP,%UR_RAM1,XTDSLP1,{[T_96_MS] First test period for test pump at DSLS},$FABD,1,251,T_96_MS,3,$00FF,K; /UMP,%UR_RAM1,XTDSLP2,{[T_96_MS] Prüfzeitdauer für zweite Prüfung Pumpe bei DSLS},$FABF,1,251,T_96_MS,3,$00FF,K; /UMP,%UR_RAM1,XTDSLS,{[T_96_MS] Prüfzeitdauer bei Sekundärluftdiagnose},$FAC0,1,251,T_96_MS,3,$00FF,K; /UMP,%UR_RAM1,XTDSLSTE,{[T_96_MS] Sperrzeit fuer Tankentlueftung},$FAC4,1,251,T_96_MS,3,$00FF,K; /UMP,%UR_RAM1,XTDSLV1,{[T_96_MS] Prüfzeitdauer für erste Prüfung Ventil bei DSLS},$FABC,1,251,T_96_MS,3,$00FF,K; /UMP,%UR_RAM1,XTDSLV2,{[T_96_MS] Prüfzeitdauer für zweite Prüfung Ventil bei DSLS},$FABE,1,251,T_96_MS,3,$00FF,K; /UMP,%UR_RAM1,XTDTAAUS,{ Entprellzähler für Fehleraustrag, min/max |umr: T_96_},$FFBB,1,251,T_96_MS,3,$00FF,K; /UMP,%UR_RAM1,XTDTAEIN,{ Entprellzähler für Fehlereintrag, min/max |umr: T_96_},$FFBA,1,251,T_96_MS,3,$00FF,K; /UMP,%UR_RAM1,XTDTAPL,{ Zeitzähler: Mindestprüfdauer Plausiblitätstest |umr: T_96_},$FFB8,1,251,T_96_MS,3,$00FF,K; /UMP,%UR_RAM1,XTDTAPLG,{ Zeitzähler: Gesamtprüfdauer Plausiblitätstest |umr: T_96_},$FFB9,1,251,T_96_MS,3,$00FF,K; /UMP,%UR_RAM1,XTDTEAB,{ Zeit für Erkennung 'Schlauch ab'},$FDB5,1,9,DEZ,3,$00FF,K; /UMP,%UR_RAM1,XTDTEAV,{ Verzögerungszeit vor AAV-Schließen},$FDB6,1,9,DEZ,3,$00FF,K; /UMP,%UR_RAM1,XTDTEDP,{ Meßzeit für 10s, GUDAUF, GUDAB und TEV-Ansteuerung},$FDD4,1,9,DEZ,3,$00FF,K; /UMP,%UR_RAM1,XTDTEFRR,{ max. Zeit für FR-Reset nach TEV zu},$FDB7,1,9,DEZ,3,$00FF,K; /UMP,%UR_RAM1,XTDTEOZG,{ Prüfzeit für oszillierenden Drucksensor},$FDD5,1,251,T_96_MS,3,$00FF,K; /UMP,%UR_RAM1,XTDTETVH,{ Time for TEV Control open},$FDCB,1,251,T_96_MS,3,$00FF,K; /UMP,%UR_RAM1,XTDTETVL,{},$FDCC,1,9,DEZ,3,$00FF,K; /UMP,%UR_RAM1,XTDTEUDW,{ max. Zeit für Drucksensor am unteren Anschlag},$FDBA,1,154,T16MAIN1,3,$00FF,K; /UMP,%UR_RAM1,XTDTEWD,{ Wartezeitzähler für Druckausgleich},$FDBB,1,9,DEZ,3,$00FF,K; /UMP,%UR_RAM1,XTDTEWK,{ Wartezeit bei warmem Kraftstoff},$FDB8,1,9,DEZ,3,$00FF,K; /UMP,%UR_RAM1,XTDTFALL,{ Zeitzähler: Aktivierung der Diagnose im LL |umr: T_96_},$FFB6,1,251,T_96_MS,3,$00FF,K; /UMP,%UR_RAM1,XTDTFAST,{ Zeitzähler: Auspufferwärmzeit ab Start |umr: T_306},$FFB5,1,227,T_3060_MS,3,$00FF K; /UMP,%UR_RAM1,XTDTM,{ [umr:t_96ms] debounce counter Fehler da},$FCFC,1,251,T_96_MS,3,$00FF,K; /UMP,%UR_RAM1,XTDTMNF,{ [umr:t_1_sec] debounce counter kein Fehler da},$FCFD,1,220,T_1_SEC,3,$00FF,K; /UMP,%UR_RAM1,XTDUB,{ Zähler für Zeit-Entprellung Eintrag/Austrag},$F8C6,1,9,DEZ,3,$00FF,K; /UMP,%UR_RAM1,XTDUDNE,{ Zaehler fuer Zeit nach Start: Zeitzaehler},$F8C4,1,9,DEZ,3,$00FF,K; /UMP,%UR_RAM1,XTDV,{ Verzögerungszeitzähler für Fehler-ein-/austrag},$FAE2,1,9,DEZ,3,$00FF,K; /UMP,%UR_RAM1,XTDWFSVN,{ Wartezeit im Nachlauf bis zur Verriegelung},$FAEC,1,9,DEZ,3,$00FF,K; /UMP,%UR_RAM1,XTD_LIMIT,{Delay counter for detection min-/max-error},$F971,1,212,T_12_MS,3,$00FF,K; /UMP,%UR_RAM1,XTD_PLAUS,{Delay counter for plausible error detection},$F972,1,251,T_96_MS,3,$00FF,K; /UMP,%UR_RAM1,XTEC,{ Zeitzaehler fuer TEC |main1| (n2pht,n3p spezifisch)},$F872,1,192,TMAIN1,3,$00FF,K; /UMP,%UR_RAM1,XTEC1,{ Time count for TEC1 | main1 | (n2pht, n3p specific)},$F873,1,192,TMAIN1,3,$00FF,K; /UMP,%UR_RAM1,XTEDHH,{.#*>UR [T_256TCONV] ; Verzög.-Timer DHLS h.K.},$FFFE,1,9,DEZ,3,$00FF,K; /UMP,%UR_RAM1,XTEDHV,{.#*>UR [T_256TCONV] ; Verzög.-Timer DHLS v.K.},$FFFD,1,9,DEZ,3,$00FF,K; /UMP,%UR_RAM1,XTEFKT,{te-korr-faktor, umf: FKT128},$F912,1,51,FKT128,3,$00FF,K; /UMP,%UR_RAM1,XTETIFAK,{uebergabefaktor von teclc nach tiber, falls},$F934,1,177,TI_H_256,3,$00FF,K; /UMP,%UR_RAM1,XTEUKW1,{zwischenspeicher von xteukw},$F9F6,1,180,TL,3,$00FF,K; /UMP,%UR_RAM1,XTEVG,{TATE bei VL, abgeschalteter LR, ... | 0.39 [%]|},$F861,1,9,DEZ,3,$00FF,K; /UMP,%UR_RAM1,XTE_H,{startbereich-B1-te_h |umr: tl_h|},$FFE3,1,186,TL_H,3,$00FF,K; /UMP,%UR_RAM1,XTE_TIM,{Zeitzähler für Phasensteuerung |3072 ms|},$F84C,1,229,T_3072_MS,3,$00FF,K; /UMP,%UR_RAM1,XTFAFLAG,{ Flag byte for diagnostic intake air temperature sensor},$FFB4,1,9,DEZ,3,$00FF,K; /UMP,%UR_RAM1,XTFANM,{ fantemperaturemodel},$F9A1,1,162,TABG,3,$00FF,K; /UMP,%UR_RAM1,XTFDSLS,{[T_9180_MS] timer after start til begin of DSLS},$FAC2,1,248,T_9180_MS,3,$00FF,K; /UMP,%UR_RAM1,XTFRA,{ Ueberwachungstimer der DKVS FRA},$FAA4,1,9,DEZ,3,$00FF,K; /UMP,%UR_RAM1,XTFRA_U,{ Untersetzungsbyte des Ueberwachungstimers FRA},$FAA5,1,9,DEZ,3,$00FF,K; /UMP,%UR_RAM1,XTFTEFVA,{time for initial limit of the purge| 3072 ms |},$F857,1,9,DEZ,3,$00FF,K; /UMP,%UR_RAM1,XTGAZA,{Zeitzähler | 9 s |},$F84D,1,9,DEZ,3,$00FF,K; /UMP,%UR_RAM1,XTHSH,{Sondenheizungstimer h.K [TMAIN1]},$FFF6,1,192,TMAIN1,3,$00FF,K; /UMP,%UR_RAM1,XTHSV,{Sondenheizungstimer v.K [TMAIN1]},$FFF5,1,192,TMAIN1,3,$00FF,K; /UMP,%UR_RAM1,XTHVASOLL,{einzurechnende Auszeit v. K. (0 oder THVAUB) [TMAIN1]},$FFF7,1,9,DEZ,3,$00FF,K; /UMP,%UR_RAM1,XTIB1,{B1-ti_high [block |umr:256*ti_l, 256*timer2-quant|},$F93B,258,179,TI_L,3,$FFFF,K; /UMP,%UR_RAM1,XTIB1L,{B1-ti_low nicht |umr:ti_l, timer2-quant|},$F93C,1,9,DEZ,3,$00FF,K; /UMP,%UR_RAM1,XTIB1VORH,{B1-ti_verlaengerung aendern] |umr:tmain1, 12ms|},$F93D,1,192,TMAIN1,3,$00FF,K; /UMP,%UR_RAM1,XTIMEOUT,{ Timeout T1/T2 |12ms|},$FF80,1,9,DEZ,3,$00FF,K; /UMP,%UR_RAM1,XTIMEWP,{ Timeout fuer Werkspruefung},$FF88,1,9,DEZ,3,$00FF,K; /UMP,%UR_RAM1,XTIMMIL,{MIL-Verzoegerung nach Start},$F9A9,1,9,DEZ,3,$00FF,K; /UMP,%UR_RAM1,XTINI,{ High Zeit von TXT vor Wup},$FAE5,1,9,DEZ,3,$00FF,K; /UMP,%UR_RAM1,XTKAT,{},$F99E,1,162,TABG,3,$00FF,K; /UMP,%UR_RAM1,XTKATF,{.#*>UR [TABG] ; gefilterte Kattemperatur},$FFEB,259,9,DEZ,3,$00FF,K; /UMP,%UR_RAM1,XTKATM,{ Kattemperaturmodell},$F99E,1,162,TABG,3,$00FF,K; /UMP,%UR_RAM1,XTKDFA,{Status-Flag-Register},$F8E9,1,9,DEZ,3,$00FF,K; /UMP,%UR_RAM1,XTLEFLAG,{flags fuer TLE-diagnose},$FCAB,1,9,DEZ,3,$00FF,K; /UMP,%UR_RAM1,XTLFKT,{ LMR: TL-soll (xerg_ps), add. vorzeichenb.},$F91F,1,9,DEZ,3,$00FF,K; /UMP,%UR_RAM1,XTLGR1,{|16XI|SZ-Nr| tl-verteilung 1},$FCC7,1,9,DEZ,3,$00FF,K; /UMP,%UR_RAM1,XTLGR2,{|16XI|SZ-Nr| tl-verteilung 2},$FCC8,1,9,DEZ,3,$00FF,K; /UMP,%UR_RAM1,XTLGR8S,{|16XI|SZ-Nr| TL-verteilung 8 stuetzen},$FF61,1,9,DEZ,3,$00FF,K; /UMP,%UR_RAM1,XTLIM,{minimales tl (LL-regler-stopp) |umr:TL256, 50 [us]|},$F841,1,181,TL256,3,$00FF,K; /UMP,%UR_RAM1,XTLRAN,{ load limit},$F81C,1,9,DEZ,3,$00FF,K; /UMP,%UR_RAM1,XTLRSA,{ Wartezeittimer nach Schubabschneiden},$F81E,1,192,TMAIN1,3,$00FF,K; /UMP,%UR_RAM1,XTLRSLS,{ Wait timer for secondary air blowing},$F81F,1,9,DEZ,3,$00FF,K; /UMP,%UR_RAM1,XTLSTM,{Start basic injection amount |umr:TL|},$FAC7,1,180,TL,3,$00FF,K; /UMP,%UR_RAM1,XTLUE,{tl at start of evaluating xdtlue |umr: TL|},$FCDF,1,9,DEZ,3,$00FF,K; /UMP,%UR_RAM1,XTMABSTA,{ Abstelltemperatur fuer STADAP},$FA93,1,9,DEZ,3,$00FF,K; /UMP,%UR_RAM1,XTMDMM,{ [umr:temp] Temperatur für Motormodell},$FCFA,1,168,TEMP,3,$00FF,K; /UMP,%UR_RAM1,XTMFBL,{lowzaehler, gemessene low-zeit |tmain1|},$F8C0,1,9,DEZ,3,$00FF,K; /UMP,%UR_RAM1,XTMFBPH,{highphasenzaehler erkannte highphase |dez|},$F8C1,1,9,DEZ,3,$00FF,K; /UMP,%UR_RAM1,XTMFBPK,{kurzschlussphasenzaehler |dez|},$F8C3,1,9,DEZ,3,$00FF,K; /UMP,%UR_RAM1,XTMFBPL,{lowphasenzaehler erkannte lowphase |dez|},$F8C2,1,9,DEZ,3,$00FF,K; /UMP,%UR_RAM1,XTMFBZ,{abtastzaehler gemessene zyluszeit |tmain1|},$F8BF,1,9,DEZ,3,$00FF,K; /UMP,%UR_RAM1,XTMODFLAG,{ [umr:dez] Flagbyte für Temperaturmodell},$FCF7,1,9,DEZ,3,$00FF,K; /UMP,%UR_RAM1,XTMODFLRAR,{ [umr:dez] TMOD Fehlerart für OBDII},$FCF8,1,9,DEZ,3,$00FF,K; /UMP,%UR_RAM1,XTMOTGR,{|16XI|SZ-Nr| tmot-verteilung},$FCC9,1,9,DEZ,3,$00FF,K; /UMP,%UR_RAM1,XTMOTGR2,{|16XI|SZ-Nr| tmot-verteilung 2},$FCCA,1,9,DEZ,3,$00FF,K; /UMP,%UR_RAM1,XTMOTGR8S,{|16XI|SZ-Nr| TMOT-verteilung 8 stuetzen},$FF60,1,9,DEZ,3,$00FF,K; /UMP,%UR_RAM1,XTMOTLIN,{ [umr:temp] linearisierter tmot-wert},$FCF9,1,168,TEMP,3,$00FF,K; /UMP,%UR_RAM1,XTMOTLU,{ TMOT-Schwelle fuer DASE aktiv |Umr: TEMP|},$FB0E,1,168,TEMP,3,$00FF,K; /UMP,%UR_RAM1,XTMOTST,{tmot start |umr:TEMP, cts-80|},$F866,1,168,TEMP,3,$00FF,K; /UMP,%UR_RAM1,XTMOTSTGR,{|16XI|SZ-Nr| tmot_START-verteilung},$FCCB,1,9,DEZ,3,$00FF,K; /UMP,%UR_RAM1,XTNMAX,{zeitzaehler: |von TNMAX -> 0 im main1-raster|},$FCAA,1,192,TMAIN1,3,$00FF,K; /UMP,%UR_RAM1,XTNSERK,{.#*>UR [T_256TCONV] Entprelltimer Nebenschlußerkennung},$F95E,258,9,DEZ,3,$FFFF,K; /UMP,%UR_RAM1,XTNSTDN,{.#*>UR [T_256TCONV] Timer für Erkennung Sonde vor Kat kalt},$F95C,258,9,DEZ,3,$FFFF,K; /UMP,%UR_RAM1,XTOUTC,{ Counter},$F88B,1,9,DEZ,3,$00FF,K; /UMP,%UR_RAM1,XTOUTR,{ Reload-Buffer},$F88D,1,9,DEZ,3,$00FF,K; /UMP,%UR_RAM1,XTOUTZ,{ Zeitkonstante},$F88C,1,9,DEZ,3,$00FF,K; /UMP,%UR_RAM1,XTPA,{ekp-vorlaufzeitzaehler |umr:tmain1, 12ms|},$FCA9,1,192,TMAIN1,3,$00FF,K; /UMP,%UR_RAM1,XTPSVKMF,{ [TPSV] gefilterte Periodendauer Sonde vor Kat},$F8DD,1,199,TPSV,3,$00FF,K; /UMP,%UR_RAM1,XTPSVKOF,{ [TPSV] Meßwerttimer Periodendauer Sonde vor Kat},$F8DB,1,199,TPSV,3,$00FF,K; /UMP,%UR_RAM1,XTPSVKU,{ [-] Untersetzungsbyte fuer XTPSVKOF},$F8DC,1,9,DEZ,3,$00FF,K; /UMP,%UR_RAM1,XTPSVLSSA,{ Period S.v.K, 40ms/Ink},$FADA,1,237,T_4E_2,3,$00FF,K; /UMP,%UR_RAM1,XTPTE,{ Zeitzähler für eingeschwungenen Tankdruck},$FDBE,1,9,DEZ,3,$00FF,K; /UMP,%UR_RAM1,XTQACT,{perrzaehler bedarfsadaption |umr:T64main1, 0.768s|},$F845,1,160,T64MAIN1,3,$00FF,K; /UMP,%UR_RAM1,XTRA,{ Leckluftkorrektur der LRA},$F804,1,99,KVS,3,$00FF,K; /UMP,%UR_RAM1,XTRABC,{ Load monitoring timer},$F818,1,9,DEZ,3,$00FF,K; /UMP,%UR_RAM1,XTRABR,{},$F81A,1,9,DEZ,3,$00FF,K; /UMP,%UR_RAM1,XTRABZ,{},$F819,1,9,DEZ,3,$00FF,K; /UMP,%UR_RAM1,XTRAZS,{ TRA bei Start des Ueberwachungstimers TRA},$FAA2,1,99,KVS,3,$00FF,K; /UMP,%UR_RAM1,XTRAZS_L,{ low},$FAA3,1,9,DEZ,3,$00FF,K; /UMP,%UR_RAM1,XTRA_L,{ low Byte zu XTRA (= XTRA+1)},$F805,258,9,DEZ,3,$FFFF,K; /UMP,%UR_RAM1,XTRPCNT,{ # of trips since last powerfail or},$F9AF,1,9,DEZ,3,$00FF,K; /UMP,%UR_RAM1,XTRSE,{ Überwachungszeit LR ein (für DLSH) |umr:t_8tconv, 48ms|},$F96A,1,247,T_8TCONV,3 $00FF,K; /UMP,%UR_RAM1,XTS23,{ Zwischenwert von ts(n-2)-ts(n-3)},$FB07,258,9,DEZ,3,$FFFF,K; /UMP,%UR_RAM1,XTSAKA,{.#*>UR [TMAIN1] ;Timer fuer Schubdauer},$FBDE,1,192,TMAIN1,3,$00FF,K; /UMP,%UR_RAM1,XTSCTL,{ Speicher fuer 1ms-Zaehlerstaende},$FB74,1,9,DEZ,3,$00FF,K; /UMP,%UR_RAM1,XTSLPMN,{Zaehler Mindesteinschaltdauer der SLP |umr:t_80_ms|},$F96E,1,251,T_96_MS,3,$00FF,K; /UMP,%UR_RAM1,XTSN3,{ Zwischenwert von ts(n+3)},$FB05,258,9,DEZ,3,$FFFF,K; /UMP,%UR_RAM1,XTSTEAA,{ [T_100TCONV]Sperrtimer zu Beginn der TE-Phase},$F8E1,1,9,DEZ,3,$00FF,K; /UMP,%UR_RAM1,XTSTEAAU,{ [T_TCONV]Sperrtimeruntersetzung zu Beginn der TE-Phase},$F8E2,1,9,DEZ,3,$00FF,K; /UMP,%UR_RAM1,XTSTHL,{count for start delay time extension TSTHL},$FCE1,1,222,T_24,3,$00FF,K; /UMP,%UR_RAM1,XTS_APP,{ Monitor Segmentdauer alt (HOB,LOB)},$FB2C,258,11,DEZ_16,3,$FFFF,K; /UMP,%UR_RAM1,XTTDTED,{ Time-out-Zähler für dichtes TE-System},$FDC9,1,9,DEZ,3,$00FF,K; /UMP,%UR_RAM1,XTTEAUS,{TEB - Verzögerungszeit | 3072 ms |},$F85D,1,9,DEZ,3,$00FF,K; /UMP,%UR_RAM1,XTTEVUB,{TEV-Verzugszeit aus TTEVUB |umr:T_32E_6B|},$F864,1,9,DEZ,3,$00FF,K; /UMP,%UR_RAM1,XTTLR,{ Sperrzeittimer TV},$F81B,1,9,DEZ,3,$00FF,K; /UMP,%UR_RAM1,XTTRA,{ Ueberwachungstimer der DKVS TRA},$FAA0,1,9,DEZ,3,$00FF,K; /UMP,%UR_RAM1,XTTRA_U,{ Untersetzungsbyte des Ueberwachungstimers TRA},$FAA1,1,9,DEZ,3,$00FF,K; /UMP,%UR_RAM1,XTUEDTL,{counter for TUEDTL |umr: STUF|},$F8B0,1,9,DEZ,3,$00FF,K; /UMP,%UR_RAM1,XTUEDTLN,{interpolating result from TUEDTL},$FCE0,1,9,DEZ,3,$00FF,K; /UMP,%UR_RAM1,XTUHS,{.#*>UR [T_TCONV] ; Untersetzung Verzög.-Timer},$FFFC,1,9,DEZ,3,$00FF,K; /UMP,%UR_RAM1,XTUS,{ Highzeittimer},$FAD4,1,239,T_4TM,3,$00FF,K; /UMP,%UR_RAM1,XTUSKS,{ Verzögerungszeit bei KS der LS (für DLSH) |umr:t_8tconv, 48ms|},$F969,1,247,T_8TCONV,3 $00FF,K; /UMP,%UR_RAM1,XTUSPN,{ Highzeit in 40ms-Inkrementen},$FAD5,1,237,T_4E_2,3,$00FF,K; /UMP,%UR_RAM1,XTUSPNF,{ Highzeit in 40ms-Inkrementen, gefiltert},$FAD6,1,237,T_4E_2,3,$00FF,K; /UMP,%UR_RAM1,XTVBER,{Bereich für TEV-Periode},$F85E,1,9,DEZ,3,$00FF,K; /UMP,%UR_RAM1,XTVLR,{ XRAM-Speicher fuer TVLR(KFRTV+XTVLRH): Bereitstellung TV},$F816,1,192,TMAIN1,3,$00FF,K; /UMP,%UR_RAM1,XTVLRA,{ Wartetimer Freigabe LRA nach LR ein},$F80D,1,254,T_TM100,3,$00FF,K; /UMP,%UR_RAM1,XTVLRHP,{ = tvlrhp ( 1 inc = 12 ms ) ( unsigned byte )},$FBCD,1,9,DEZ,3,$00FF,K; /UMP,%UR_RAM1,XTVM,{ final duty cycle |umr:FKTP256, 1/256},$FFC4,1,75,FKTP256,3,$00FF,K; /UMP,%UR_RAM1,XTVREM,{ Wartezeittimer im Nachstart zur Freigabe der LR |umr:T_1_sec|},$F826,1,9,DEZ,3,$00FF,K; /UMP,%UR_RAM1,XTVSAS,{Fuel cut-off delay time |umr:treq, 24ms|},$F942,1,172,TFREQ,3,$00FF,K; /UMP,%UR_RAM1,XTV_VS,{ Duty cycle feedforward |umr:FKTP256, 1/256},$FFC9,1,75,FKTP256,3,$00FF,K; /UMP,%UR_RAM1,XTWBDCY,{wartezeitzaehler fuer erkennung 'driving cycle'},$FF5E,1,161,T8MAIN1,3,$00FF,K; /UMP,%UR_RAM1,XTWFRDSLE,{[T_96_MS] Wartezeit nach Ende Sekundärluft-Diagnose },$FAC3,1,251 T_96_MS,3,$00FF,K; /UMP,%UR_RAM1,XTWFRDSLS,{[T_96_MS] Wartezeit für SLS-Diagnose bei Fr am Anschlag},$FABA,1,251,T_96_MS,3,$00FF,K; /UMP,%UR_RAM1,XTWFSSR,{ maximale Ti-Freigabezeit ohne Entriegelung},$FAEA,1,9,DEZ,3,$00FF,K; /UMP,%UR_RAM1,XTWFSVNN,{ Zeit nach der verriegelt wird bei fehlender Drehza},$FF65,258,9,DEZ,3,$FFFF,K; /UMP,%UR_RAM1,XTWH,{Aufregelzeit fuer Wiederholstart/Wiederholnachstart},$FAB2,1,227,T_3060_MS,3,$00FF,K; /UMP,%UR_RAM1,XTWLRA,{ Wartetimer der DKVS fuer Zyklusflag},$FAA8,1,9,DEZ,3,$00FF,K; /UMP,%UR_RAM1,XTWLRAU,{ Untersetzungsbyte des Wartetimers},$FAA9,1,9,DEZ,3,$00FF,K; /UMP,%UR_RAM1,XTWTRPDCY,{Zaehler Ersatztrip nach DCY},$F9AB,1,9,DEZ,3,$00FF,K; /UMP,%UR_RAM1,XTWTRPLL,{Zaehler Ersatztrip im LL},$F9AA,1,9,DEZ,3,$00FF,K; /UMP,%UR_RAM1,XTWTRPST,{Zaehler Ersatztrip nach ST},$F9AC,1,9,DEZ,3,$00FF,K; /UMP,%UR_RAM1,XTZLSATV,{ [T_2048TCONV] Zyklustimer TVLRH-Ueberwachung},$F8E3,1,221,T_2048TCON,3,$00FF,K; /UMP,%UR_RAM1,XTZLSATVL,{ [-] low Byte zu XTZLSATV},$F8E4,1,9,DEZ,3,$00FF,K; /UMP,%UR_RAM1,XTZLSATVU,{ [T_TCONV] Zyklustimer TVLRH-Ueberwachung Untersetzung},$F8E5,1,9,DEZ,3,$00FF,K; /UMP,%UR_RAM1,XUBGR,{|16XI|SZ-Nr| ubatt-verteilung},$FCCC,1,9,DEZ,3,$00FF,K; /UMP,%UR_RAM1,XUBRCT,{ Freigabezahler fuer UBR |umr:TLLR, 0.024 [s]|},$F83D,1,182,TLLR,3,$00FF,K; /UMP,%UR_RAM1,XUHH,{shunt current HK [UHLSO]},$FFFA,1,260,UHLSO,3,$00FF,K; /UMP,%UR_RAM1,XUHHF,{.#*>UR [UHLSO] ; gefilterter Heizstrom hK},$FFF1,259,9,DEZ,3,$00FF,K; /UMP,%UR_RAM1,XUKLNUL,{ Knocking zero voltage test |umr: U5VQ|},$FA00,1,258,U5VQ,3,$00FF,K; /UMP,%UR_RAM1,XUMWELT10,{ extended VOlVO DFSO 'UMWELT 10 ( flags )'},$FE1D,1,9,DEZ,3,$00FF,K; /UMP,%UR_RAM1,XUMWELT4,{ extended VOlVO DFSO 'UMWELT 4'},$FE17,1,9,DEZ,3,$00FF,K; /UMP,%UR_RAM1,XUMWELT5,{ extended VOlVO DFSO 'UMWELT 5'},$FE18,1,9,DEZ,3,$00FF,K; /UMP,%UR_RAM1,XUMWELT6,{ extended VOlVO DFSO 'UMWELT 6'},$FE19,1,9,DEZ,3,$00FF,K; /UMP,%UR_RAM1,XUMWELT7,{ extended VOlVO DFSO 'UMWELT 7'},$FE1A,1,9,DEZ,3,$00FF,K; /UMP,%UR_RAM1,XUMWELT8,{ extended VOlVO DFSO 'UMWELT 8'},$FE1B,1,9,DEZ,3,$00FF,K; /UMP,%UR_RAM1,XUMWELT9,{ extended VOlVO DFSO 'UMWELT 9 ( flags )'},$FE1C,1,9,DEZ,3,$00FF,K; /UMP,%UR_RAM1,XUPZ,{ Unterprogrammzaehler},$F887,1,9,DEZ,3,$00FF,K; /UMP,%UR_RAM1,XUSFF,{ Sondenspannung bei Signal fett, gefiltert},$FAC9,258,9,DEZ,3,$FFFF,K; /UMP,%UR_RAM1,XUSFM,{ Sondenspannung bei Signal mager, gefiltert},$FACB,258,9,DEZ,3,$FFFF,K; /UMP,%UR_RAM1,XUSHK,{ Lambdasondenspannung behind cat (dafuer XUSHK aus EDKATKO entfernen)},$F962,1,265,USOND,3 $00FF,K; /UMP,%UR_RAM1,XUSHKJ,{ Sondenspannung ohne Offset h.K.},$FADC,1,9,DEZ,3,$00FF,K; /UMP,%UR_RAM1,XUSMNSAA,{ Minimale bisher erreichte Sondenspannung},$FAD0,1,268,U_LAMP,3,$00FF,K; /UMP,%UR_RAM1,XUSMNSAN,{ Minimale erreichte Sondenspannung für Tester},$FAD2,1,268,U_LAMP,3,$00FF,K; /UMP,%UR_RAM1,XUSMXSAA,{ Maximale bisher erreichte Sondenspannung},$FACF,1,268,U_LAMP,3,$00FF,K; /UMP,%UR_RAM1,XUSMXSAN,{ Maximale erreichte Sondenspannung für Tester},$FAD1,1,268,U_LAMP,3,$00FF,K; /UMP,%UR_RAM1,XUSRJ,{ Regelschwelle ohne Offset},$FADD,1,9,DEZ,3,$00FF,K; /UMP,%UR_RAM1,XUSVK,{ Lambdasondenspannung vor Kat (dafuer XUSVK aus EDKATKO entfernen)},$F950,1,265,USOND,3,$00FF K; /UMP,%UR_RAM1,XUSVKALT,{ Lambdasondenspannung beim letzten Aufruf},$FAD3,1,268,U_LAMP,3,$00FF,K; /UMP,%UR_RAM1,XUSVKJ,{ Sondenspannung ohne Offset v.K.},$FADB,1,9,DEZ,3,$00FF,K; /UMP,%UR_RAM1,XUSVKX,{ [U_LSONX] erw. Lambdasondenspannung vor Kat.},$F94F,1,9,DEZ,3,$00FF,K; /UMP,%UR_RAM1,XVERBR,{gerundete, unkorrigierte TI_H},$F878,1,9,DEZ,3,$00FF,K; /UMP,%UR_RAM1,XVERIFIFLR,{ xy=00 => Fehler nicht verifiziert, xy=11 => Fehler},$FDEA,259,9,DEZ,3,$00FF,K; /UMP,%UR_RAM1,XVERST1,{ 5 Cyl.spez. Amplification Factor},$FA12,1,9,DEZ,3,$00FF,K; /UMP,%UR_RAM1,XVERST2,{ 3},$FA13,1,9,DEZ,3,$00FF,K; /UMP,%UR_RAM1,XVERST3,{ 1},$FA14,1,9,DEZ,3,$00FF,K; /UMP,%UR_RAM1,XVERST4,{ 2},$FA15,1,9,DEZ,3,$00FF,K; /UMP,%UR_RAM1,XVERST5,{ 4},$FA16,1,9,DEZ,3,$00FF,K; /UMP,%UR_RAM1,XVFAKT1,{ 5 Cyl.spez. Portansteuerung der Verstaerkung},$FA17,1,9,DEZ,3,$00FF,K; /UMP,%UR_RAM1,XVFAKT2,{ 3},$FA18,1,9,DEZ,3,$00FF,K; /UMP,%UR_RAM1,XVFAKT3,{ 1},$FA19,1,9,DEZ,3,$00FF,K; /UMP,%UR_RAM1,XVFAKT4,{ 2},$FA1A,1,9,DEZ,3,$00FF,K; /UMP,%UR_RAM1,XVFAKT5,{ 4},$FA1B,1,9,DEZ,3,$00FF,K; /UMP,%UR_RAM1,XVS00,{ Verstellwerte mit Neutralwert 00},$F915,1,9,DEZ,3,$00FF,K; /UMP,%UR_RAM1,XVS128,{ Verstellwerte mit Neutralwert 128},$F91F,1,9,DEZ,3,$00FF,K; /UMP,%UR_RAM1,XVS30,{ Verstellwerte mit Neutralwert 30},$F91F,1,9,DEZ,3,$00FF,K; /UMP,%UR_RAM1,XVSFLG,{ VS20-Flags},$F910,1,9,DEZ,3,$00FF,K; /UMP,%UR_RAM1,XVTC,{ Fahrzeuggeschwindigkeit vom Getriebe | 1 km/h |'},$FCE8,1,9,DEZ,3,$00FF,K; /UMP,%UR_RAM1,XVWFS,{ Geschwindigkeitsspeicher für Resetfall im Betrieb},$FAEB,1,9,DEZ,3,$00FF,K; /UMP,%UR_RAM1,XV_EV1,{Extension counters fuer TI1 |umr:tmain1, 12ms|},$F935,1,192,TMAIN1,3,$00FF,K; /UMP,%UR_RAM1,XV_EV2,{Extension counters fuer TI2 |umr:tmain1, 12ms|},$F936,1,192,TMAIN1,3,$00FF,K; /UMP,%UR_RAM1,XV_EV3,{Extension counters fuer TI3 |umr:tmain1, 12ms|},$F937,1,192,TMAIN1,3,$00FF,K; /UMP,%UR_RAM1,XV_EV4,{Extension counters fuer TI4 |umr:tmain1, 12ms|},$F938,1,192,TMAIN1,3,$00FF,K; /UMP,%UR_RAM1,XV_EV5,{Extension counters fuer TI5 |umr:tmain1, 12ms|},$F939,1,192,TMAIN1,3,$00FF,K; /UMP,%UR_RAM1,XWAIT,{ Wartezeit},$FF7F,1,9,DEZ,3,$00FF,K; /UMP,%UR_RAM1,XWARNCT,{ Fehlerzähler für Error-Passiv, Reset mit KL15ein},$FCF6,1,9,DEZ,3,$00FF,K; /UMP,%UR_RAM1,XWARN_INFO,{ Fehlerzähler für Error-Passiv, Reset mit FSP-Delete},$FCF4,1,9,DEZ,3,$00FF,K; /UMP,%UR_RAM1,XWDK,{ Absolute angle-throttle |umr:wdk_of|},$F922,1,275,WDK_OF,3,$00FF,K; /UMP,%UR_RAM1,XWDKBL,{ auf LL-Winkel bezogener DK-Winkel |umr:wdk|},$F923,1,272,WDK,3,$00FF,K; /UMP,%UR_RAM1,XWDKBL2,{ [symbol fuer source-spezifikation]},$F923,1,9,DEZ,3,$00FF,K; /UMP,%UR_RAM1,XWDKBLGR,{|16XI|SZ-Nr| wdkbl-verteilung},$FCCD,1,9,DEZ,3,$00FF,K; /UMP,%UR_RAM1,XWDKBLGR8S,{|16XI|SZ-Nr| WDKBL-verteilung 8 stuetzen},$FF62,1,9,DEZ,3,$00FF,K; /UMP,%UR_RAM1,XWDKBLK,{ WDKBL korrigiert abh. v. Stelleroeffnung |umr:wdk|},$F92C,1,272,WDK,3,$00FF,K; /UMP,%UR_RAM1,XWDKGR_LMR,{|16XI|SZ-Nr| WDKOB-verteilung LMR},$FCD0,1,9,DEZ,3,$00FF,K; /UMP,%UR_RAM1,XWDKLL,{ Leerlaufwinkel - Schwellenwert |umr:wdk|},$F924,1,272,WDK,3,$00FF,K; /UMP,%UR_RAM1,XWDKLM,{ gelernter Leerlaufwinkel |umr:wdk_of|},$F926,1,275,WDK_OF,3,$00FF,K; /UMP,%UR_RAM1,XWDKLMN,{ min. LL-Winkel pro Betriebs-Zyklus |umr:wdk_of|},$F928,1,275,WDK_OF,3,$00FF,K; /UMP,%UR_RAM1,XWDKOB,{ Load for turbo maps (in Overboost) |umr:W},$FFDC,1,274,WDK_OB,3,$00FF,K; /UMP,%UR_RAM1,XWDKVG,{ virtueller Drosselklappenwinkel gesamt |umr:wdk|},$F8D5,1,272,WDK,3,$00FF,K; /UMP,%UR_RAM1,XWDKVGGR,{ Source für damos Gruppen |main1|},$F8D4,1,9,DEZ,3,$00FF,K; /UMP,%UR_RAM1,XWDKVL,{ Full load angle - threshold |umr:wdk|},$F925,1,272,WDK,3,$00FF,K; /UMP,%UR_RAM1,XWEFKT,{ti-vorlagerung, umf: ZAHN; add bei >80H},$F913,1,279,ZAHN,3,$00FF,K; /UMP,%UR_RAM1,XWFSMS,{ Generelles Sperren/Freigeben der WFS},$FAE9,1,9,DEZ,3,$00FF,K; /UMP,%UR_RAM1,XWFSPWF,{ Powerfail-Byte für WFS-Funktion},$FAE8,1,9,DEZ,3,$00FF,K; /UMP,%UR_RAM1,XWFSTEIL1,{},$FF65,1,9,DEZ,3,$00FF,K; /UMP,%UR_RAM1,XWFSTEIL1_,{},$FF69,1,9,DEZ,3,$00FF,K; /UMP,%UR_RAM1,XWFSTEIL2,{},$FAE3,1,9,DEZ,3,$00FF,K; /UMP,%UR_RAM1,XWFSTEIL2_,{},$FAED,1,9,DEZ,3,$00FF,K; /UMP,%UR_RAM1,XWFSTEIL3,{},$FF69,1,9,DEZ,3,$00FF,K; /UMP,%UR_RAM1,XWFSTEIL3_,{},$FF89,1,9,DEZ,3,$00FF,K; /UMP,%UR_RAM1,XWFSWP,{ Werksprüfung aktiv/inaktiv},$FF67,258,9,DEZ,3,$FFFF,K; /UMP,%UR_RAM1,XWF_L,{alte wandfilmmenge (aus KLWF) |24us b.16MHz|},$F9E9,1,9,DEZ,3,$00FF,K; /UMP,%UR_RAM1,XWHZ,{ Wiederholungszaehler},$F886,1,9,DEZ,3,$00FF,K; /UMP,%UR_RAM1,XWKH,{delta (late) ignition angle |umr:zwonn, p=-i/0.75|},$F8C7,1,291,ZWONN,3,$00FF,K; /UMP,%UR_RAM1,XWKKFM,{ Filtermatrix zur statistischen Auswertung der AV-Abweichungen},$F9B4,1,9,DEZ,3,$00FF,K; /UMP,%UR_RAM1,XWKKFM10,{},$F9BE,1,9,DEZ,3,$00FF,K; /UMP,%UR_RAM1,XWKKFM12,{},$F9C0,1,9,DEZ,3,$00FF,K; /UMP,%UR_RAM1,XWKKFM14,{},$F9C2,1,9,DEZ,3,$00FF,K; /UMP,%UR_RAM1,XWKKFM16,{},$F9C4,1,9,DEZ,3,$00FF,K; /UMP,%UR_RAM1,XWKKFM2,{},$F9B6,1,9,DEZ,3,$00FF,K; /UMP,%UR_RAM1,XWKKFM4,{},$F9B8,1,9,DEZ,3,$00FF,K; /UMP,%UR_RAM1,XWKKFM6,{},$F9BA,1,9,DEZ,3,$00FF,K; /UMP,%UR_RAM1,XWKKFM8,{},$F9BC,1,9,DEZ,3,$00FF,K; /UMP,%UR_RAM1,XWLL,{ Winkel Leerlauf |78 - cts*0.75 gradKW|},$F86E,1,293,ZWOUT,3,$00FF,K; /UMP,%UR_RAM1,XWORTZ,{ Blocklaengenzaehler},$F885,1,9,DEZ,3,$00FF,K; /UMP,%UR_RAM1,XWST,{ Winkel Start |78 - cts*0.75 gradKW|},$F86D,1,293,ZWOUT,3,$00FF,K; /UMP,%UR_RAM1,XWSTTIMER1,{ during xwsttimer1 <> 0 repeated engine start},$FAAE,1,9,DEZ,3,$00FF,K; /UMP,%UR_RAM1,XWSTTIMER2,{ during xwsttimer2 <> 0 repeated engine start},$FAAF,1,9,DEZ,3,$00FF,K; /UMP,%UR_RAM1,XWSTTIMER3,{ during xwsttimer3 <> 0 repeated engine after},$FAB0,1,9,DEZ,3,$00FF,K; /UMP,%UR_RAM1,XWSTTIMER4,{ during xwsttimer4 <> 0 repeated engine after},$FAB1,1,9,DEZ,3,$00FF,K; /UMP,%UR_RAM1,XWUPH,{ High Zeit Wup},$FAE7,1,9,DEZ,3,$00FF,K; /UMP,%UR_RAM1,XWUPL,{ Low Zeit Wup},$FAE6,1,9,DEZ,3,$00FF,K; /UMP,%UR_RAM1,XWWDKHH,{interpolationsergebnis aus KFWWDKHH |fkt256|},$FCD9,1,60,FKT256,3,$00FF,K; /UMP,%UR_RAM1,XZBIT,{Bitzaehler},$F87E,1,9,DEZ,3,$00FF,K; /UMP,%UR_RAM1,XZBURN,{ Zaehler erkannte Verbrennungen im KST},$FA88,1,9,DEZ,3,$00FF,K; /UMP,%UR_RAM1,XZBURNSU,{ Zaehler aller erkannte Verbrennungen im KST},$FA89,1,9,DEZ,3,$00FF,K; /UMP,%UR_RAM1,XZCTRLLTL,{AZLLTL (date) count, | q = 1zdg/cts |},$FCC1,1,152,STUF,3,$00FF,K; /UMP,%UR_RAM1,XZCTR_BUF,{result from AZLLTLM (curve f (tmot))},$FCC2,1,152,STUF,3,$00FF,K; /UMP,%UR_RAM1,XZDCTRABS,{Zuendungszahl seit startende |umr: s.idata zdg_r|},$FCC0,1,280,ZDG_R,3,$00FF,K; /UMP,%UR_RAM1,XZDCTRDIFF,{Ignition number per main cycle |umr: s.idata zdg_r|},$FCBF,1,9,DEZ,3,$00FF,K; /UMP,%UR_RAM1,XZDGGR8S,{|16XI|SZ-Nr| stuetzverteilungsergebnis},$FF50,1,9,DEZ,3,$00FF,K; /UMP,%UR_RAM1,XZDSLS,{[dez] Prüfungszähler für SLS-Diagnose},$FAB7,1,9,DEZ,3,$00FF,K; /UMP,%UR_RAM1,XZFKML,{ Zeitkonstante fuer Auf- und Absteuerung},$F94A,1,36,EX16_320MS,3,$00FF,K; /UMP,%UR_RAM1,XZFLG,{},$F981,1,9,DEZ,3,$00FF,K; /UMP,%UR_RAM1,XZFLG1,{},$F981,1,9,DEZ,3,$00FF,K; /UMP,%UR_RAM1,XZFLG10,{},$F98A,1,9,DEZ,3,$00FF,K; /UMP,%UR_RAM1,XZFLG11,{},$F98B,1,9,DEZ,3,$00FF,K; /UMP,%UR_RAM1,XZFLG2,{ACHTUNG: bei veraenderung den spiegel},$F982,1,9,DEZ,3,$00FF,K; /UMP,%UR_RAM1,XZFLG3,{xzflgs beachten !!},$F983,1,9,DEZ,3,$00FF,K; /UMP,%UR_RAM1,XZFLG4,{},$F984,1,9,DEZ,3,$00FF,K; /UMP,%UR_RAM1,XZFLG5,{berechnung der bitadresse fuer einen},$F985,1,9,DEZ,3,$00FF,K; /UMP,%UR_RAM1,XZFLG6,{fehlerort: siehe xerflg},$F986,1,9,DEZ,3,$00FF,K; /UMP,%UR_RAM1,XZFLG7,{},$F987,1,9,DEZ,3,$00FF,K; /UMP,%UR_RAM1,XZFLG8,{},$F988,1,9,DEZ,3,$00FF,K; /UMP,%UR_RAM1,XZFLG9,{},$F989,1,9,DEZ,3,$00FF,K; /UMP,%UR_RAM1,XZFLGS,{},$F98C,1,9,DEZ,3,$00FF,K; /UMP,%UR_RAM1,XZFLGS1,{},$F98C,1,9,DEZ,3,$00FF,K; /UMP,%UR_RAM1,XZFLGS10,{},$F995,1,9,DEZ,3,$00FF,K; /UMP,%UR_RAM1,XZFLGS11,{},$F996,1,9,DEZ,3,$00FF,K; /UMP,%UR_RAM1,XZFLGS2,{},$F98D,1,9,DEZ,3,$00FF,K; /UMP,%UR_RAM1,XZFLGS3,{},$F98E,1,9,DEZ,3,$00FF,K; /UMP,%UR_RAM1,XZFLGS4,{},$F98F,1,9,DEZ,3,$00FF,K; /UMP,%UR_RAM1,XZFLGS5,{berechnung der bitadresse fuer einen},$F990,1,9,DEZ,3,$00FF,K; /UMP,%UR_RAM1,XZFLGS6,{fehlerort: siehe xerflg.},$F991,1,9,DEZ,3,$00FF,K; /UMP,%UR_RAM1,XZFLGS7,{},$F992,1,9,DEZ,3,$00FF,K; /UMP,%UR_RAM1,XZFLGS8,{},$F993,1,9,DEZ,3,$00FF,K; /UMP,%UR_RAM1,XZFLGS9,{},$F994,1,9,DEZ,3,$00FF,K; /UMP,%UR_RAM1,XZFTEADML,{Zeitkonstante für Beladungsfaktor aus Kennlinie},$F856,1,9,DEZ,3,$00FF,K; /UMP,%UR_RAM1,XZLLRAZ,{adaptionszyklenzähler zum setzen von Z_baa},$FF51,1,9,DEZ,3,$00FF,K; /UMP,%UR_RAM1,XZLSATP,{ [DEZ] counter cycle period duration monitoring},$F8E0,1,9,DEZ,3,$00FF,K; /UMP,%UR_RAM1,XZNSM,{zeitkonstante znsm=f(tmot) |umr:EX16L, 6.144/cts|},$F83E,1,29,EX16L,3,$00FF,K; /UMP,%UR_RAM1,XZNW,{Counter for NW-Jump [kwu]},$F831,1,9,DEZ,3,$00FF,K; /UMP,%UR_RAM1,XZSYNCHRO,{ Zaehler Synchros im Kaltstart (KST)},$FA87,1,9,DEZ,3,$00FF,K; /UMP,%UR_RAM1,XZTDQDP,{zaehler fuer sperrzeit TDQDP |24ms|},$F82D,1,193,TMESS_2O,3,$00FF,K; /UMP,%UR_RAM1,XZTLFN,{interpolergebnis aus ztlfn (normal)},$F8FC,1,9,DEZ,3,$00FF,K; /UMP,%UR_RAM1,XZTLFNN,{interpolergebnis aus ztlfnn (b_tlfu)},$F8FB,1,9,DEZ,3,$00FF,K; /UMP,%UR_RAM1,XZTUELLTL,{counter fuer TUELLTL (%UE_LLTL) q=96ms},$FF52,1,251,T_96_MS,3,$00FF,K; /UMP,%UR_RAM1,XZUBKST,{ Counter UB im Kaltstart < UBKST},$FA86,1,9,DEZ,3,$00FF,K; /UMP,%UR_RAM1,XZUSTWFS,{ Automatenzustand der immobilizer},$FAE4,1,9,DEZ,3,$00FF,K; /UMP,%UR_RAM1,XZUWE,{Dwell step width from KFZUWE1/2/3 |umr: STUF|},$F8AF,1,9,DEZ,3,$00FF,K; /UMP,%UR_RAM1,XZUZWFS,{ Zufallszahl},$FF81,258,9,DEZ,3,$FFFF,K; /UMP,%UR_RAM1,XZWDSLS,{[T_3072_MS] Minimum time between two Prüfversuchen DSLS},$FAC1,1,229,T_3072_MS,3,$00FF,K; /UMP,%UR_RAM1,XZWGRD,{ZW-ground value including phase correction |78 - cts*0.75 gradK},$F86C,1,293,ZWOUT,3,$00FF,K; /UMP,%UR_RAM1,XZWPVK,{ [DEZ] Warteperiodenzaehler Periodendauerueberwachung},$F8DF,1,9,DEZ,3,$00FF,K; /UMP,%UR_RAM1,XZ_LMRGE,{ LMR-Sperrzeitzähler für I-Anteil bei GE |umr:S},$FFDD,1,143,SEC60,3,$00FF,K; /UMP,%UR_RAM1,XZ_LMRPGE,{ LMR-Sperrzeitzähler für P-Anteil bei GE |umr:S},$FFDE,1,9,DEZ,3,$00FF,K; /UMP,%UR_RAM1,XZ_TKOAVL,{ Time Counter for AC switch-off after full identification |umr:t_96_m},$F86F,1,9,DEZ,3,$00FF,K; /UMP,%UR_RAM1,XZ_TSLE,{Zeitzaehler fuer Einschat-Verz.|umr:t_3060_ms|},$F96D,1,9,DEZ,3,$00FF,K; /UMP,%UR_RAM1,XZ_TSLS,{Time count for SLS active |umr:t_3060_ms|},$F96B,1,9,DEZ,3,$00FF,K; /UMP,%UR_RAM1,X_10MS,{ free running main1-raster timer},$FCAE,1,9,DEZ,3,$00FF,K; /UMP,%UR_RAM1,X_10MSDIFF,{ 10 ms timer difference},$FCB1,1,9,DEZ,3,$00FF,K; /UMP,%UR_RAM1,X_10MSOLD,{ value of the last main1-raster timer capture},$FCB0,1,9,DEZ,3,$00FF,K; /UMP,%UR_RAM1,X_192MS,{ 16*main1-raster timer},$FCB4,1,9,DEZ,3,$00FF,K; /UMP,%UR_RAM1,X_192MSDIF,{ 16*main1-raster timer difference},$FCB6,1,9,DEZ,3,$00FF,K; /UMP,%UR_RAM1,X_192MS_A,{ 16*main1-raster timer old},$FCB5,1,9,DEZ,3,$00FF,K; /UMP,%UR_RAM1,X_255SDIFF,{ FFh*main1-raster timer difference},$FCB7,1,9,DEZ,3,$00FF,K; /UMP,%UR_RAM1,X_80MS,{ free running 8*main1-raster timer},$FCAF,1,9,DEZ,3,$00FF,K; /UMP,%UR_RAM1,X_80MSDIFF,{ 8*main1-raster timer difference},$FCB3,1,9,DEZ,3,$00FF,K; /UMP,%UR_RAM1,X_80MSOLD,{ value of the last 8*main1-raster timer capture},$FCB2,1,9,DEZ,3,$00FF,K; /UMP,%UR_RAM1,X_9SHELP,{ counter to generate the 9 sec time slot},$FCBD,1,9,DEZ,3,$00FF,K; /UMP,%UR_RAM1,X_9STIMER,{ 9 sec time slot counter},$FCBC,1,9,DEZ,3,$00FF,K; /UMP,%UR_RAM1,X_ACPRESS,{ ac pressure,analog value},$F970,1,1,ACDRUCK,3,$00FF,K; /UMP,%UR_RAM1,X_AC_ORG,{ original ac pressure value ( no substitution )},$F975,1,9,DEZ,3,$00FF,K; /UMP,%UR_RAM1,X_FBGFHA,{ Flag-Byte Höhenadaption |umr:dez|},$F8CA,1,9,DEZ,3,$00FF,K; /UMP,%UR_RAM1,X_FDKHABH_,{},$F8CE,1,9,DEZ,3,$00FF,K; /UMP,%UR_RAM1,X_FDKHABL,{ Faktor DK-Höhenadaption begrenzt Low-Byte |umr:fkt128/256|},$F8CF,1,9,DEZ,3,$00FF,K; /UMP,%UR_RAM1,X_FDKHAH,{ Faktor DK-Höhenadaption High-Byte |umr:fkt128|},$F8CB,1,51,FKT128,3,$00FF,K; /UMP,%UR_RAM1,X_FDKHAL,{ Faktor DK-Höhenadaption Low-Byte |umr:fkt128/256|},$F8CC,1,9,DEZ,3,$00FF,K; /UMP,%UR_RAM1,X_FDKHA_L,{ Faktor DK-Höhenadaption Last-Byte |umr:fkt128/256/256|},$F8CD,1,9,DEZ,3,$00FF K; /UMP,%UR_RAM1,X_FLAGHFM,{ Flagregister HFM-Fehler und Speicher},$FAC5,1,9,DEZ,3,$00FF,K; /UMP,%UR_RAM1,X_FLAGKL,{ Flagregister for Air compressor control},$F870,1,9,DEZ,3,$00FF,K; /UMP,%UR_RAM1,X_FLAGKL1,{ Flagregister for Air compressor control},$F871,1,9,DEZ,3,$00FF,K; /UMP,%UR_RAM1,X_GANGBR,{Gangbereich (Quotient v/n) |keine aussagefaeh. dimension|},$FA95,1,9,DEZ,3,$00FF,K; /UMP,%UR_RAM1,X_GSTBIN,{Transmission status only for test purpose},$FAFF,1,9,DEZ,3,$00FF,K; /UMP,%UR_RAM1,X_GSTZAE,{Counter for monitoring the gear engagement active},$FAFE,1,9,DEZ,3,$00FF,K; /UMP,%UR_RAM1,X_MAXSTACK,{max stack pointer},$FCBE,1,9,DEZ,3,$00FF,K; /UMP,%UR_RAM1,X_NGST,{Nummer der Drehzahlstuetzstelle},$FAFD,1,9,DEZ,3,$00FF,K; /UMP,%UR_RAM1,X_QDHPT,{control air share |x_qdpt-KFQDP(neu)| |qstell, 0.4kg/h|},$F82B,1,138,QSTELL,3,$00FF,K; /UMP,%UR_RAM1,X_QDPT,{KFQDP_wert_alt (gefiltert) |qstell, 0.4kg/h|},$F82A,1,138,QSTELL,3,$00FF,K; /UMP,%UR_RAM1,X_SCHAST,{gear stage | 1 .. 5 according to gear, 0 = no output|},$FA94,1,9,DEZ,3,$00FF,K; /UMP,%UR_RAM1,X_SLS,{Status register for SLS},$F96C,1,9,DEZ,3,$00FF,K; /UMP,%UR_RAM1,X_SWOFF,{Speicher um die 1,1s Zeitdifferenz zu berechnen)},$F8BD,1,9,DEZ,3,$00FF,K; /UMP,%UR_RAM1,X_TDMLWK,{ Entprellzaehler fuer MAX-Fehlereintrag},$FAC6,1,192,TMAIN1,3,$00FF,K; /UMP,%UR_RAM1,X_TIME,{zaehler fuer stufenbreite ZDQDP |24ms|},$F82C,1,222,T_24,3,$00FF,K; /UMP,%UR_RAM1,X_WDKBLO,{xwdkbl_alt (vor 24ms) |umr:wdk|},$F829,1,272,WDK,3,$00FF,K; /UMP,%UR_RAM1,X_WDK_ABS,{ absolutwert (nicht ersatzwert) |umr:wdk_of|},$F92D,1,275,WDK_OF,3,$00FF,K; /UMP,%UR_RAM1,X_WST,{ flag byte for 'Wiederholstart'},$FAAD,1,9,DEZ,3,$00FF,K; /UMP,%UR_RAM1,X_ZDKHAXH,{ Integrator Zeitkonstante High-Byte |umr:0.0000019s*256/},$F8D0,1,9,DEZ,3,$00FF K; /UMP,%UR_RAM1,X_ZDKHAXL,{ Integrator Zeitkonstante Low-Byte |umr:0.0000019s/ink|},$F8D1,1,9,DEZ,3,$00FF K; /UMP,%UR_RAM1,ZAHNZ,{Zahnzaehler fuer Zahninterrupt},$007E,1,9,DEZ,2,$00FF,K; /UMP,%UR_RAM1,ZAUTOM,{wegfahrsperre: Protokoll Zustandsautomat},$003A,1,9,DEZ,2,$00FF,K; /UMP,%UR_RAM1,ZBAL,{absteuerfaktor L-speicher (tmot) BA |4.88E-4|},$F9ED,1,58,FKT2048,3,$00FF,K; /UMP,%UR_RAM1,ZDCTR,{BTN-rasterzaehler |1 zdg|},$0082,1,9,DEZ,2,$00FF,K; /UMP,%UR_RAM1,ZLRH,{ aktueller Kennlinienwert Integrationszeitkonstante ZLRHML},$FBC1,1,288,ZLRHK6,3,$00FF,K; /UMP,%UR_RAM1,ZSBH,{zahnsimulation: Buffer HOB},$007C,1,9,DEZ,2,$00FF,K; /UMP,%UR_RAM1,ZSBL,{zahnsimulation: Buffer LOB},$007D,1,9,DEZ,2,$00FF,K; /UMP,%UR_RAM1,ZTLF,{Zeitkonstantenbereitstellung fuer Tl-Filter},$0060,1,9,DEZ,2,$00FF,K; /UMP,%UR_RAM1,ZUENZAE,{segmentzaehler, reset am beginn von B2 (flgkss)},$005E,1,9,DEZ,2,$00FF,K; /UMP,%UR_RAM1,ZVAL,{absteuerfaktor L-speicher (tmot) VA |4.88E-4|},$F9EE,1,58,FKT2048,3,$00FF,K; /UMP,%UR_RAM1,ZWBEG,{ZW after change limitation |umr:ZWOUT, 78-0.75*cts|},$0055,1,293,ZWOUT,2,$00FF,K; /UMP,%UR_RAM1,ZWD,{Firing angle limit count},$0056,1,9,DEZ,2,$00FF,K; /UMP,%UR_RAM1,ZWEN,{Delta-ZW with reinsert |umr:ZWONN, -0.75 gradKW|},$008D,1,291,ZWONN,2,$00FF,K; /UMP,%UR_RAM1,ZWGETR,{getriebe: add. ZW-Korrektur |0.75 gradKW|},$0066,1,291,ZWONN,2,$00FF,K; /UMP,%UR_RAM1,ZWNEU,{ZW before change limitation (vor syncroebene)},$005A,1,293,ZWOUT,2,$00FF,K; /UMP,%UR_RAM1,ZWOUT,{Output firing angle |umr:ZWOUT, 78-0.75*cts|},$0054,1,293,ZWOUT,2,$00FF,K; /UMP,%UR_RAM1,ZZ,{Zuendzaehler (Inkrementzaehler)},$004E,1,9,DEZ,2,$00FF,K; /UMP,%UR_RAM1,ZZEITH,{Zeitausgabe Inkrementverfeinerung Zuendung HOB},$0050,1,9,DEZ,2,$00FF,K; /UMP,%UR_RAM1,ZZEITL,{Zeitausgabe Inkrementverfeinerung Zuendung LOB},$004F,1,9,DEZ,2,$00FF,K; /UMP,%UR_RAM1,Z_ZMEM,{KR: Memory fuer Zylinderzaehler},$0046,1,9,DEZ,2,$00FF,K; /UMP,%UR_RAM1,Z_ZYL,{ Zylinderzaehler fuer Phase |dez|},$0011,1,9,DEZ,2,$00FF,K; /UMP,%UR_RAM1,ADB,{D:FLAG1.2 Indikator fuer synchrone AD-Wandlung},$0025,1,93,YES_NO,2,$0004,K; /UMP,%UR_RAM1,ALRST0,{O:xalrst.0 Adaptionsbereich 1 aktiv},$F80A,1,93,YES_NO,3,$0001,K; /UMP,%UR_RAM1,ALRST1,{O:xalrst.1 Adaptionsbereich 2 aktiv},$F80A,1,93,YES_NO,3,$0002,K; /UMP,%UR_RAM1,ALRST2,{O:xalrst.2 Adaptionsbereich 3 aktiv},$F80A,1,93,YES_NO,3,$0004,K; /UMP,%UR_RAM1,ALRST3,{O:xalrst.3 kein Adaptionsbereich aktiv},$F80A,1,93,YES_NO,3,$0008,K; /UMP,%UR_RAM1,ALRST7,{O:xalrst.7 LRA nicht zugelassen (=!B_LRA)},$F80A,1,93,YES_NO,3,$0080,K; /UMP,%UR_RAM1,ALT_LL,{O:XFLAG0.2 LL was detected (f LL = 1 -> 0 detection)},$F879,1,93,YES_NO,3,$0004,K; /UMP,%UR_RAM1,APPL_FREI,{O:xf_wfs.2 Application interface can be activated},$FAE3,1,93,YES_NO,3,$0004,K; /UMP,%UR_RAM1,B14,{O:xmainfa1.2 engine speed above limit-nlf},$F8B2,1,93,YES_NO,3,$0004,K; /UMP,%UR_RAM1,B15,{O:xmainfa1.1 AC-ON flag is set to active},$F8B2,1,93,YES_NO,3,$0002,K; /UMP,%UR_RAM1,B16,{O:xmainfa1.4 when FO_LOG15: delay time},$F8B2,1,93,YES_NO,3,$0010,K; /UMP,%UR_RAM1,B17,{O:xmainfa3.5 Anforderung von DPAC: Lufter12 einschalten},$F8B4,1,93,YES_NO,3,$0020,K; /UMP,%UR_RAM1,B18,{O:xmainfa2.2 TMOT - error},$F8B3,1,93,YES_NO,3,$0004,K; /UMP,%UR_RAM1,B18A,{O:xmainfa4.2 tmot error},$F8B5,1,93,YES_NO,3,$0004,K; /UMP,%UR_RAM1,B22,{O:xmainfa4.3 main_fan controlled by D2},$F8B5,1,93,YES_NO,3,$0008,K; /UMP,%UR_RAM1,B24,{O:xmainfa4.0 Hosenrohrmodell},$F8B5,1,93,YES_NO,3,$0001,K; /UMP,%UR_RAM1,B25,{O:xmainfa4.1 coolant temp. above limit},$F8B5,1,93,YES_NO,3,$0002,K; /UMP,%UR_RAM1,B27,{O:xmainfa4.4 coolant temp. above limit},$F8B5,1,93,YES_NO,3,$0010,K; /UMP,%UR_RAM1,B28,{O:xmainfa4.5 coolant temp. above limit},$F8B5,1,93,YES_NO,3,$0020,K; /UMP,%UR_RAM1,B31,{O:xmainfa2.4 fan1/2 has been running for more than 5s},$F8B3,1,93,YES_NO,3,$0010,K; /UMP,%UR_RAM1,B51,{O:x_flagkl.1 Num. of ignitions > AZKOAS},$F870,1,93,YES_NO,3,$0002,K; /UMP,%UR_RAM1,B53,{O:x_flagkl.3 Time to full-load detection TKOAVL expired},$F870,1,93,YES_NO,3,$0008,K; /UMP,%UR_RAM1,B56,{O:x_flagkl.5 Time to full load detection TKOAVLMN expired},$F870,1,93,YES_NO,3,$0020,K; /UMP,%UR_RAM1,B64,{O:xmainfa2.6 output stage of fan1/2 must not be changed},$F8B3,1,93,YES_NO,3,$0040,K; /UMP,%UR_RAM1,B81,{O:xmainfa2.3 E-box temperature - error},$F8B3,1,93,YES_NO,3,$0008,K; /UMP,%UR_RAM1,B93,{O:xmainfa3.6 set if e_luea set},$F8B4,1,93,YES_NO,3,$0040,K; /UMP,%UR_RAM1,BH11,{O:xmainfa2.0 coolant temp. above limit - TMLF1},$F8B3,1,93,YES_NO,3,$0001,K; /UMP,%UR_RAM1,BH12,{O:xmainfa1.3 vehicle speed below limit-VLF1},$F8B2,1,93,YES_NO,3,$0008,K; /UMP,%UR_RAM1,BH21,{O:xmainfa1.7 vehicle speed below limit-VLF2},$F8B2,1,93,YES_NO,3,$0080,K; /UMP,%UR_RAM1,BH32,{O:xmainfa2.5 coolant temperature above limit - TMLF2},$F8B3,1,93,YES_NO,3,$0020,K; /UMP,%UR_RAM1,BH50,{O:x_flagkl.0 TMOT > TMLF3},$F870,1,93,YES_NO,3,$0001,K; /UMP,%UR_RAM1,BH52_B56,{O:x_flagkl.2 Replacement operation for BH52 and B 56},$F870,1,93,YES_NO,3,$0004,K; /UMP,%UR_RAM1,BH55,{O:x_flagkl.4 X_ACPRESS > PACREL,S_KO einmal aktiv,delay 1},$F870,1,93,YES_NO,3,$0010,K; /UMP,%UR_RAM1,BH60,{O:xmainfa1.0 ac_pressure above ac_p2},$F8B2,1,93,YES_NO,3,$0001,K; /UMP,%UR_RAM1,BH61,{O:xmainfa1.6 vehicle speed below limit-VLF4},$F8B2,1,93,YES_NO,3,$0040,K; /UMP,%UR_RAM1,BH62,{O:xmainfa2.7 ac_pressure above ac_p3},$F8B3,1,93,YES_NO,3,$0080,K; /UMP,%UR_RAM1,BH63,{O:xmainfa2.1 mixture of speed and pressure},$F8B3,1,93,YES_NO,3,$0002,K; /UMP,%UR_RAM1,BH80,{O:xmainfa1.5 E-box temperature above limit (tebox)},$F8B2,1,93,YES_NO,3,$0020,K; /UMP,%UR_RAM1,BM_SYN,{D:FLAGBM.1 Synchronisation (zahnluecke) occured},$0024,1,93,YES_NO,2,$0002,K; /UMP,%UR_RAM1,BTN,{D:FLAG1.3 Indikator fuer Periodendauer gemessen},$0025,1,93,YES_NO,2,$0008,K; /UMP,%UR_RAM1,B_A5A6,{O:xmcstat.0 Massetastg. erkannt, warte auf A5 od.A6},$F8ED,1,93,YES_NO,3,$0001,K; /UMP,%UR_RAM1,B_AAVE,{O:xfdtes2.3 AAV fehlerhaft verschlossen},$FDA1,1,93,YES_NO,3,$0008,K; /UMP,%UR_RAM1,B_AAVUE,{O:xfdtes2.5 AAV fehlerhaft verschlossen},$FDA1,1,93,YES_NO,3,$0020,K; /UMP,%UR_RAM1,B_AAVZB,{O:xfdtes3.3 AAV-Prüfung beendet},$FDA2,1,93,YES_NO,3,$0008,K; /UMP,%UR_RAM1,B_AC,{O:x_flagkl1.1 Control AC relay},$F871,1,93,YES_NO,3,$0002,K; /UMP,%UR_RAM1,B_ACA,{D:KRFLG2.3 Input for KOS73, no input for KOS56},$002D,1,93,YES_NO,2,$0008,K; /UMP,%UR_RAM1,B_AC_FF,{O:x_flagkl1.0 nur N2PHT (650) : S_AC-FlipFlop},$F871,1,93,YES_NO,3,$0001,K; /UMP,%UR_RAM1,B_ADKAT,{O:xflgkat.3 Sondenamplitudenermittlung aktiv},$F9CA,1,93,YES_NO,3,$0008,K; /UMP,%UR_RAM1,B_ADP,{O:xf_lfr.2 bedingung bedarfsadaption},$F836,1,93,YES_NO,3,$0004,K; /UMP,%UR_RAM1,B_ANFW,{O:xtmodflag.5 Anfangswertübernahme},$FCF7,1,93,YES_NO,3,$0020,K; /UMP,%UR_RAM1,B_ATEVZU,{O:xfdtes6.3 10s-Timer in A_TEVZU ist aktiv},$FDA5,1,93,YES_NO,3,$0008,K; /UMP,%UR_RAM1,B_ATMTPA,{O:xfatm.2 Filter Abgastemperaturmodell aktiv},$F997,1,93,YES_NO,3,$0004,K; /UMP,%UR_RAM1,B_ATMTPE,{O:xfatm.0 Taupunktende erreicht},$F997,1,93,YES_NO,3,$0001,K; /UMP,%UR_RAM1,B_ATMTPK,{O:xfatm.3 Filter Kattemperaturmodell aktiv},$F997,1,93,YES_NO,3,$0008,K; /UMP,%UR_RAM1,B_ATMW,{O:xfatm.1 B_ATMTPE aus letztem Fahrzyklus},$F997,1,93,YES_NO,3,$0002,K; /UMP,%UR_RAM1,B_BDH,{O:xmcstat.6 es wurde hohe Baudrate gereizt},$F8ED,1,93,YES_NO,3,$0040,K; /UMP,%UR_RAM1,B_BDM,{O:xmcstat.5 es wurde mittlere Baudrate gereizt},$F8ED,1,93,YES_NO,3,$0020,K; /UMP,%UR_RAM1,B_BOFDTV,{O:xfkvs.2 DTV im Bereich ohne Fehler},$FA9F,1,93,YES_NO,3,$0004,K; /UMP,%UR_RAM1,B_BOFFRA,{O:xfkvs.1 FRA im Bereich ohne Fehler},$FA9F,1,93,YES_NO,3,$0002,K; /UMP,%UR_RAM1,B_BOFTRA,{O:xfkvs.0 TRA im Bereich ohne Fehler},$FA9F,1,93,YES_NO,3,$0001,K; /UMP,%UR_RAM1,B_D2,{D:FLAG3.5 Indikator VOLVO-Diagnose II in operation},$0027,1,93,YES_NO,2,$0020,K; /UMP,%UR_RAM1,B_DCY,{O:xobdstat.0 Driving-Cycle fulfilled},$F9A4,1,93,YES_NO,3,$0001,K; /UMP,%UR_RAM1,B_DESEE,{O:xcj400flg.2 Satisfies the input conditions},$FDDF,1,93,YES_NO,3,$0004,K; /UMP,%UR_RAM1,B_DIS_AC,{O:x_flagkl.6 AC relay does not actuate. EDTLE, DPAC impact},$F870,1,93,YES_NO,3,$0040,K; /UMP,%UR_RAM1,B_DKAT,{O:xflgkat.7 Katkonvertierungsueberwachung aktiv},$F9CA,1,93,YES_NO,3,$0080,K; /UMP,%UR_RAM1,B_DKNLM_HA,{O:x_fbgfha.7 Bedingung DK-Fehler & kein LM-Fehler},$F8CA,1,93,YES_NO,3,$0080,K; /UMP,%UR_RAM1,B_DLASH,{O:xfdlsa.1 Schwingungsüberwachung aktiv},$F8D9,1,93,YES_NO,3,$0002,K; /UMP,%UR_RAM1,B_DLATP,{O:xfdlsa.3 Periodendauerüberwachung aktiv},$F8D9,1,93,YES_NO,3,$0008,K; /UMP,%UR_RAM1,B_DLATV,{O:xfdlsa.4 TV-Überwachung aktiv},$F8D9,1,93,YES_NO,3,$0010,K; /UMP,%UR_RAM1,B_DLE,{O:xf_dle.0 Einschaltbedingung fuer DLE},$FAF8,1,93,YES_NO,3,$0001,K; /UMP,%UR_RAM1,B_DSHNF,{O:xfdlsa.6 Regler h.K. hat nicht angefettet},$F8D9,1,93,YES_NO,3,$0040,K; /UMP,%UR_RAM1,B_DSHNM,{O:xfdlsa.7 Regler h.K. hat nicht abgemagert},$F8D9,1,93,YES_NO,3,$0080,K; /UMP,%UR_RAM1,B_DSLALR,{O:xdsls1.3 Diagnose Sekundärluftsystem Anpassung Reglerpar},$FAB3,1,93,YES_NO,3,$0008,K; /UMP,%UR_RAM1,B_DSLILR,{O:xdsls1.4 Diagnose Sekundärluftsystem Integratorsteigung},$FAB3,1,93,YES_NO,3,$0010,K; /UMP,%UR_RAM1,B_DSLLRST,{O:xdsls1.5 Steuerung des Regelfaktors aus DSLS},$FAB3,1,93,YES_NO,3,$0020,K; /UMP,%UR_RAM1,B_DSLS,{D:FLAG02.4 DSLS active},$0023,1,93,YES_NO,2,$0010,K; /UMP,%UR_RAM1,B_DSLSA,{O:xdsls2.7 LR forces, even if E_SLS = 1},$FAB4,1,93,YES_NO,3,$0080,K; /UMP,%UR_RAM1,B_DSVKD,{O:xfdlsa.5 Grenzwert bei ATV überschritten},$F8D9,1,93,YES_NO,3,$0020,K; /UMP,%UR_RAM1,B_DTEA,{O:xfdtes2.7 Abbruch TE-Diagnose},$FDA1,1,93,YES_NO,3,$0080,K; /UMP,%UR_RAM1,B_DTEAAV,{O:xfdtes4.2 AAV closed condition},$FDA3,1,93,YES_NO,3,$0004,K; /UMP,%UR_RAM1,B_DTEABB,{O:xfdtes1.5 Bedingung TEV Absteuern bei Beladung},$FDA0,1,93,YES_NO,3,$0020,K; /UMP,%UR_RAM1,B_DTEABK,{O:xfdtes1.0 Abbruch wegen zu hohen Kompensationsgradienten},$FDA0,1,93,YES_NO,3,$0001,K; /UMP,%UR_RAM1,B_DTEABS,{O:xfdtes1.4 Abbruch TE-Diagnose wegen Regelgrenzen},$FDA0,1,93,YES_NO,3,$0010,K; /UMP,%UR_RAM1,B_DTEB,{O:xfdtes3.5 Beginning of the loading test},$FDA2,1,93,YES_NO,3,$0020,K; /UMP,%UR_RAM1,B_DTEB_A,{O:xfdtes3.6 Vorangegangener Status der Beladungsprüfung},$FDA2,1,93,YES_NO,3,$0040,K; /UMP,%UR_RAM1,B_DTEFRR,{O:xfdtes5.0 Bed. Lambdareglerreset bei TEV-Diagnsoe},$FDA4,1,93,YES_NO,3,$0001,K; /UMP,%UR_RAM1,B_DTEG,{O:xfdtes1.3 Nur gross leakprüfung wegen leicht gasendem Kraf},$FDA0,1,93,YES_NO,3,$0008,K; /UMP,%UR_RAM1,B_DTEND,{O:xfdtes3.4 Tank vent diagnosis beenden},$FDA2,1,93,YES_NO,3,$0010,K; /UMP,%UR_RAM1,B_DTES,{O:xfdtes4.3 Aktive Diagnose: tank venting system},$FDA3,1,93,YES_NO,3,$0008,K; /UMP,%UR_RAM1,B_DTEST,{O:xfdtes4.0 Start for TEV-Control},$FDA3,1,93,YES_NO,3,$0001,K; /UMP,%UR_RAM1,B_DTEST_A,{O:xfdtes5.3 Vorangegangener Status Start für TEV-Ansteueru},$FDA4,1,93,YES_NO,3,$0008,K; /UMP,%UR_RAM1,B_DTESW,{O:xfdtes1.2 Kraftstoffschwapper erkannt},$FDA0,1,93,YES_NO,3,$0004,K; /UMP,%UR_RAM1,B_DTES_A,{O:xfdtes6.0 Alter Zustand von B_DTES},$FDA5,1,93,YES_NO,3,$0001,K; /UMP,%UR_RAM1,B_DTLDLE,{O:xf_dle.1 Bed. Diagnoseschwellen DTLDLEO bzw.},$FAF8,1,93,YES_NO,3,$0002,K; /UMP,%UR_RAM1,B_EDKVS,{O:xfkvs.6 Regleranschlag in DKVS},$FA9F,1,93,YES_NO,3,$0040,K; /UMP,%UR_RAM1,B_ERROR,{O:xfdtes1.1 Fehler erkannt},$FDA0,1,93,YES_NO,3,$0002,K; /UMP,%UR_RAM1,B_ERROR_A,{O:xfdtes6.1 Alter Zustand von B_ERROR},$FDA5,1,93,YES_NO,3,$0002,K; /UMP,%UR_RAM1,B_ESDIA,{O:xcj400flg.3 cj400-Diagnose aktiv},$FDDF,1,93,YES_NO,3,$0008,K; /UMP,%UR_RAM1,B_ESP,{O:x_sls.1 condition SLS active (:= b_sls)},$F96C,1,93,YES_NO,3,$0002,K; /UMP,%UR_RAM1,B_ESPE,{D:FLAG01.6 SLS successfully completed},$0022,1,93,YES_NO,2,$0040,K; /UMP,%UR_RAM1,B_EUB,{O:xdubatt.0 Bedingung aktuelle Ubatt außer-},$F8C5,1,93,YES_NO,3,$0001,K; /UMP,%UR_RAM1,B_FA,{O:xtkdfa.0 Funktionsanforderung allg.},$F8E9,1,93,YES_NO,3,$0001,K; /UMP,%UR_RAM1,B_FADKVS,{O:xtkdfa.6 Funktionsanforderung DKVS},$F8E9,1,93,YES_NO,3,$0040,K; /UMP,%UR_RAM1,B_FASH,{O:xtkdfa.5 Funktionsanforderung DLSA},$F8E9,1,93,YES_NO,3,$0020,K; /UMP,%UR_RAM1,B_FASLS,{O:xtkdfa.2 Funktionsanforderung DSLS},$F8E9,1,93,YES_NO,3,$0004,K; /UMP,%UR_RAM1,B_FATES,{O:xtkdfa.1 Funktionsanforderung tank venting system},$F8E9,1,93,YES_NO,3,$0002,K; /UMP,%UR_RAM1,B_FATP,{O:xtkdfa.4 Funktionsanforderung DLSA},$F8E9,1,93,YES_NO,3,$0010,K; /UMP,%UR_RAM1,B_FATV,{O:xtkdfa.3 Funktionsanforderung DLSA},$F8E9,1,93,YES_NO,3,$0008,K; /UMP,%UR_RAM1,B_FDKHA_K1,{O:x_fbgfha.4 Bedingung fdkha<1},$F8CA,1,93,YES_NO,3,$0010,K; /UMP,%UR_RAM1,B_FLR_MAX,{O:xtfaflag.2 Detected error type 'maximum value'},$FFB4,1,93,YES_NO,3,$0004,K; /UMP,%UR_RAM1,B_FLR_MIN,{O:xtfaflag.1 Detected error type 'minimum value'},$FFB4,1,93,YES_NO,3,$0002,K; /UMP,%UR_RAM1,B_FLR_PLAU,{O:xtfaflag.3 Detected error type 'plausibility'},$FFB4,1,93,YES_NO,3,$0008,K; /UMP,%UR_RAM1,B_FRMAX,{O:xf_lr.6 Regler am oberen Anschlag},$F820,1,93,YES_NO,3,$0040,K; /UMP,%UR_RAM1,B_FRMIN,{O:xf_lr.7 Regler am unteren Anschlag},$F820,1,93,YES_NO,3,$0080,K; /UMP,%UR_RAM1,B_GA,{O:xfr_te.2 Gemischadaption},$F848,1,93,YES_NO,3,$0004,K; /UMP,%UR_RAM1,B_GAE,{O:xfkvs.3 LRA eingeschwungen},$FA9F,1,93,YES_NO,3,$0008,K; /UMP,%UR_RAM1,B_GAEFRA,{O:xfkvs.5 FRA eingeschwungen},$FA9F,1,93,YES_NO,3,$0020,K; /UMP,%UR_RAM1,B_GAETRA,{O:xfkvs.4 TRA eingeschwungen},$FA9F,1,93,YES_NO,3,$0010,K; /UMP,%UR_RAM1,B_GASP,{O:xalrst.5 lock condition LRA},$F80A,1,93,YES_NO,3,$0020,K; /UMP,%UR_RAM1,B_GKOMP,{O:xfdtes4.7 Messung Kompensationsgradient beendet},$FDA3,1,93,YES_NO,3,$0080,K; /UMP,%UR_RAM1,B_GT_NDV,{O:xdvflag.0 Bedingung n > NDV},$FAE1,1,93,YES_NO,3,$0001,K; /UMP,%UR_RAM1,B_GT_TLDV,{O:xdvflag.1 Bedingung tl > TLDV},$FAE1,1,93,YES_NO,3,$0002,K; /UMP,%UR_RAM1,B_GT_TMDV,{O:xdvflag.3 Bedingung tmot > TMDV},$FAE1,1,93,YES_NO,3,$0008,K; /UMP,%UR_RAM1,B_HA,{O:x_fbgfha.0 Bedingung Höhenadaption},$F8CA,1,93,YES_NO,3,$0001,K; /UMP,%UR_RAM1,B_HOFRAL,{O:XFLAG1.3 höhenfreigabe_alt (für hysterese)},$F87A,1,93,YES_NO,3,$0008,K; /UMP,%UR_RAM1,B_HSH,{O:xf_hls.5 Sonde behind cat wird beheizt},$FFF4,1,93,YES_NO,3,$0020,K; /UMP,%UR_RAM1,B_HSHEIN,{O:xf_hls.6 Sondenheizung behind cat ein},$FFF4,1,93,YES_NO,3,$0040,K; /UMP,%UR_RAM1,B_HSHN,{O:xe_hls.5 Nebenschluß Sondenheizung h.K. erkannt},$FFFB,1,93,YES_NO,3,$0020,K; /UMP,%UR_RAM1,B_HSHRED,{O:xf_hls.7 Sondenheizung behind cat reduziert},$FFF4,1,93,YES_NO,3,$0080,K; /UMP,%UR_RAM1,B_HSHRY,{O:xe_hls.6 Prüfung Heizung behind cat beendet},$FFFB,1,93,YES_NO,3,$0040,K; /UMP,%UR_RAM1,B_HSHST,{O:xf_hls.4 Sondenheizstrom h.K. steht bereit},$FFF4,1,93,YES_NO,3,$0010,K; /UMP,%UR_RAM1,B_HSHV,{O:xe_hls.4 Fehler verminderte Heizleistung behind cat erka},$FFFB,1,93,YES_NO,3,$0010,K; /UMP,%UR_RAM1,B_HSV,{O:xf_hls.1 Sonde vor Kat wird beheizt},$FFF4,1,93,YES_NO,3,$0002,K; /UMP,%UR_RAM1,B_HSVEIN,{O:xf_hls.2 Sondenheizung vor Kat ein},$FFF4,1,93,YES_NO,3,$0004,K; /UMP,%UR_RAM1,B_HSVN,{O:xe_hls.1 Nebenschluß Sondenheizung v.K. erkannt},$FFFB,1,93,YES_NO,3,$0002,K; /UMP,%UR_RAM1,B_HSVRED,{O:xf_hls.3 Sondenheizung vor Kat reduziert},$FFF4,1,93,YES_NO,3,$0008,K; /UMP,%UR_RAM1,B_HSVRY,{O:xe_hls.2 Prüfung Heizung vor Kat beendet},$FFFB,1,93,YES_NO,3,$0004,K; /UMP,%UR_RAM1,B_HSVST,{O:xf_hls.0 Sondenheizstrom v.K. steht bereit},$FFF4,1,93,YES_NO,3,$0001,K; /UMP,%UR_RAM1,B_HSVV,{O:xe_hls.0 Fehler verminderte Heizleistung vor Kat erkannt},$FFFB,1,93,YES_NO,3,$0001,K; /UMP,%UR_RAM1,B_ISET,{O:xf_lmr.3 Set condition I share},$FFBD,1,93,YES_NO,3,$0008,K; /UMP,%UR_RAM1,B_KFSLP,{O:x_sls.4 Release secondary air pump over KFSLP},$F96C,1,93,YES_NO,3,$0010,K; /UMP,%UR_RAM1,B_KH,{O:XFLAG0.1 cat heating intervention is allowed},$F879,1,93,YES_NO,3,$0002,K; /UMP,%UR_RAM1,B_KK,{O:xmcstat.1 A5 od.A6 received, Komm.Kennung runs},$F8ED,1,93,YES_NO,3,$0002,K; /UMP,%UR_RAM1,B_KSMH,{O:xe_lshk.6 Short circuit probe-DG, Tripbedingung},$F961,1,93,YES_NO,3,$0040,K; /UMP,%UR_RAM1,B_KSTA,{O:XFLAG0.0 Kaltstartadaption scharf},$F879,1,93,YES_NO,3,$0001,K; /UMP,%UR_RAM1,B_KSTAUE,{O:XFLAG0.7 Kaltstartadaptionsfaktoren im INI-Teil ueberneh},$F879,1,93,YES_NO,3,$0080,K; /UMP,%UR_RAM1,B_KSUBH,{O:xe_lshk.1 Short circuit-UB probe, Tripbedingung},$F961,1,93,YES_NO,3,$0002,K; /UMP,%UR_RAM1,B_LDB,{O:xflag7.2 Boost pressure reduction im 1. Gang},$F846,1,93,YES_NO,3,$0004,K; /UMP,%UR_RAM1,B_LDBAG,{O:XF_TC2.1 Boost pressure reduction requested},$FCE4,1,93,YES_NO,3,$0002,K; /UMP,%UR_RAM1,B_LDR,{O:xf_lmr.0 Operating point within TKF},$FFBD,1,93,YES_NO,3,$0001,K; /UMP,%UR_RAM1,B_LEERTK,{O:xfdtes1.7 empty tank recognized},$FDA0,1,93,YES_NO,3,$0080,K; /UMP,%UR_RAM1,B_LL,{D:PORTE1.1 Detected idle},$0020,1,93,YES_NO,2,$0002,K; /UMP,%UR_RAM1,B_LLTL,{O:XFLAG0.3 LL = 1 -> 0 transition detected (DKFKTmodul)},$F879,1,93,YES_NO,3,$0008,K; /UMP,%UR_RAM1,B_LL_OLD,{D:FLAG02.7 used within dkat - old status of LL},$0023,1,93,YES_NO,2,$0080,K; /UMP,%UR_RAM1,B_LL_UK,{O:xf_uk.2 LL-status UK},$F9DF,1,93,YES_NO,3,$0004,K; /UMP,%UR_RAM1,B_LMRA,{O:xf_lmr.1 LMR aktiv},$FFBD,1,93,YES_NO,3,$0002,K; /UMP,%UR_RAM1,B_LR,{D:FLAG5.5 Lambdaregelung 'ein' - Normalbetrieb},$0029,1,93,YES_NO,2,$0020,K; /UMP,%UR_RAM1,B_LR2S,{O:xlrst.1 Status LR als 2-Sonden-Regelung},$F821,1,93,YES_NO,3,$0002,K; /UMP,%UR_RAM1,B_LRAR,{O:xalrst.4 Adaptionsgrenzen reduziert},$F80A,1,93,YES_NO,3,$0010,K; /UMP,%UR_RAM1,B_LRASDS,{O:xdsls2.0 set to lock LRA},$FAB4,1,93,YES_NO,3,$0001,K; /UMP,%UR_RAM1,B_LRHK,{O:xsthk.1 Lambda control h.K. switched},$FBBE,1,93,YES_NO,3,$0002,K; /UMP,%UR_RAM1,B_LRHKP,{O:xsthk.2 P-jump, switch on condition},$FBBE,1,93,YES_NO,3,$0004,K; /UMP,%UR_RAM1,B_LRHKP1,{O:xsthk.3 p-jump without QLRHPPO},$FBBE,1,93,YES_NO,3,$0008,K; /UMP,%UR_RAM1,B_LRLNTL,{O:xf_lr2.4 B_ll & tl =< TLLRSHB & n > NLRSHB},$F827,1,93,YES_NO,3,$0010,K; /UMP,%UR_RAM1,B_LRND,{O:xf_lr.0 Lambdaregelalgorithmus aktiv},$F820,1,93,YES_NO,3,$0001,K; /UMP,%UR_RAM1,B_LRTL,{O:xf_lr2.0 v.kat of load-dependent condition lambda control},$F827,1,93,YES_NO,3,$0001,K; /UMP,%UR_RAM1,B_LRVK,{O:xlrst.4 Status LR als 1-Sonden-Regelung},$F821,1,93,YES_NO,3,$0010,K; /UMP,%UR_RAM1,B_LSAF,{O:xlsvk.1 Sonde v.K. außerhalb Fenster},$F94E,1,93,YES_NO,3,$0002,K; /UMP,%UR_RAM1,B_LSAFKN,{O:xlsvk.3 Sonde v.K. außerhalb Fenster, kein NS},$F94E,1,93,YES_NO,3,$0008,K; /UMP,%UR_RAM1,B_LSPVS,{O:xe_lsvk.5 Potentialversatz},$F94D,1,93,YES_NO,3,$0020,K; /UMP,%UR_RAM1,B_LSSAEX,{O:xf_lssa.2 Wartetimer Extremwerte abgelaufen},$FAC8,1,93,YES_NO,3,$0004,K; /UMP,%UR_RAM1,B_LSVKLT,{O:xlsvk.6 Sonde vor Kat kalt},$F94E,1,93,YES_NO,3,$0040,K; /UMP,%UR_RAM1,B_LSVN,{O:xlsvk.7 Nebenschluß bei Sonde vor Kat},$F94E,1,93,YES_NO,3,$0080,K; /UMP,%UR_RAM1,B_LT_ANVAL,{O:xdvflag.6 Bedingung vmess < ANVIMP alter Wert},$FAE1,1,93,YES_NO,3,$0040,K; /UMP,%UR_RAM1,B_LT_ANVIM,{O:xdvflag.2 Bedingung vmess < ANVIMP aktuell},$FAE1,1,93,YES_NO,3,$0004,K; /UMP,%UR_RAM1,B_MAXMLWK,{O:x_flaghfm.2 Entprellzeit vor Fehlereintrag},$FAC5,1,93,YES_NO,3,$0004,K; /UMP,%UR_RAM1,B_MAX_FLR,{O:xtmodflag.2 max-Fehler},$FCF7,1,93,YES_NO,3,$0004,K; /UMP,%UR_RAM1,B_MCA,{D:PORTE1.5 MCMESS active generall},$0020,1,93,YES_NO,2,$0020,K; /UMP,%UR_RAM1,B_MCM,{D:FLAG02.2 MCMESS active measuring mode},$0023,1,93,YES_NO,2,$0004,K; /UMP,%UR_RAM1,B_MCS,{D:FLAG3.6 MCMESS zündungssynchrone Ausgabe aktiv},$0027,1,93,YES_NO,2,$0040,K; /UMP,%UR_RAM1,B_MCSA,{D:FLAG6.3 MCMESS output in DIESEM Synchroprog. active},$002A,1,93,YES_NO,2,$0008,K; /UMP,%UR_RAM1,B_MCTR,{D:FLAG6.4 MCMESS kommunizierte, Timeout retriggern},$002A,1,93,YES_NO,2,$0010,K; /UMP,%UR_RAM1,B_MESS,{O:xfdtes5.4 Schwapperkennung},$FDA4,1,93,YES_NO,3,$0010,K; /UMP,%UR_RAM1,B_MFB_H,{O:xflgmfb.6 high recognized for healing},$F8BE,1,93,YES_NO,3,$0040,K; /UMP,%UR_RAM1,B_MFB_KM,{O:xflgmfb.2 short-circuit to ground},$F8BE,1,93,YES_NO,3,$0004,K; /UMP,%UR_RAM1,B_MFB_KU,{O:xflgmfb.3 open or short-circuit to UB},$F8BE,1,93,YES_NO,3,$0008,K; /UMP,%UR_RAM1,B_MFB_L,{O:xflgmfb.5 line check o.k. or detected low},$F8BE,1,93,YES_NO,3,$0020,K; /UMP,%UR_RAM1,B_MFB_N,{O:xflgmfb.4 detected rotational speed threshold},$F8BE,1,93,YES_NO,3,$0010,K; /UMP,%UR_RAM1,B_MILEB,{O:xobdstat.5 MIL-Request, self determined},$F9A4,1,93,YES_NO,3,$0020,K; /UMP,%UR_RAM1,B_MILFB,{O:xobdstat.4 MIL-Request, Other-Directed},$F9A4,1,93,YES_NO,3,$0010,K; /UMP,%UR_RAM1,B_MIN_FLR,{O:xtmodflag.1 min-Fehler},$FCF7,1,93,YES_NO,3,$0002,K; /UMP,%UR_RAM1,B_NMAX,{D:FLAG4.4 Maximaldrehzahl überschritten.},$0028,1,93,YES_NO,2,$0010,K; /UMP,%UR_RAM1,B_NOLRB,{O:xlrst.2 Status LR aus wegen Betriebszustand},$F821,1,93,YES_NO,3,$0004,K; /UMP,%UR_RAM1,B_NOLRE,{O:xlrst.3 Status LR aus wegen Fehler},$F821,1,93,YES_NO,3,$0008,K; /UMP,%UR_RAM1,B_NOLRW,{O:xlrst.0 Status LR aus wegen Warmlauf},$F821,1,93,YES_NO,3,$0001,K; /UMP,%UR_RAM1,B_NOWUC,{O:xobdstat.2 Not Warming up},$F9A4,1,93,YES_NO,3,$0004,K; /UMP,%UR_RAM1,B_NO_FLR,{O:xtmodflag.0 kein Fehler},$FCF7,1,93,YES_NO,3,$0001,K; /UMP,%UR_RAM1,B_NSP,{D:FLAG01.0 bedingung nachspritzer aus UK},$0022,1,93,YES_NO,2,$0001,K; /UMP,%UR_RAM1,B_NSWO_UK,{O:xf_uk.3 N_SWO-status UK},$F9DF,1,93,YES_NO,3,$0008,K; /UMP,%UR_RAM1,B_PAGESYN,{D:FLAG6.6 Info, Page from which the Syncro paging occurs},$002A,1,93,YES_NO,2,$0040,K; /UMP,%UR_RAM1,B_PLAUS_FL,{O:xtmodflag.3 plaus-Fehler},$FCF7,1,93,YES_NO,3,$0008,K; /UMP,%UR_RAM1,B_PSMAX,{O:xflag2.5 PSMX limiter acting},$F87B,1,93,YES_NO,3,$0020,K; /UMP,%UR_RAM1,B_PTDIFF,{O:xfdtes6.2 Druckminimum in AAV-Prfg. erkannt},$FDA5,1,93,YES_NO,3,$0004,K; /UMP,%UR_RAM1,B_PTEST,{O:xdpac_flag.2 plausibility check completed.},$F96F,1,93,YES_NO,3,$0004,K; /UMP,%UR_RAM1,B_PVSH,{O:xf_lshk.7 Lamdasonden-Potentialversatz h.K.},$F960,1,93,YES_NO,3,$0080,K; /UMP,%UR_RAM1,B_QAC,{O:x_flagkl.7 (only for N2PHT) request to the LLR},$F870,1,93,YES_NO,3,$0080,K; /UMP,%UR_RAM1,B_RXD,{O:xmcstat.2 act state K-line inverted},$F8ED,1,93,YES_NO,3,$0004,K; /UMP,%UR_RAM1,B_RXDA,{O:xmcstat.3 (10ms-)alter Zustand d.K-Leitung inv.},$F8ED,1,93,YES_NO,3,$0008,K; /UMP,%UR_RAM1,B_SA,{D:FLAG3.0 Indikator Fuel Cutoff},$0027,1,93,YES_NO,2,$0001,K; /UMP,%UR_RAM1,B_SAVEC,{D:KRFLG2.5 Save the carrys in syncro-paging},$002D,1,93,YES_NO,2,$0020,K; /UMP,%UR_RAM1,B_SA_HA,{O:x_fbgfha.3 Bedingung Schubabschneiden},$F8CA,1,93,YES_NO,3,$0008,K; /UMP,%UR_RAM1,B_SA_K1,{O:x_fbgfha.5 Bedingung Schubabschneiden & fdkha<1},$F8CA,1,93,YES_NO,3,$0020,K; /UMP,%UR_RAM1,B_SBBHK,{O:xf_lshk.0 probe ready},$F960,1,93,YES_NO,3,$0001,K; /UMP,%UR_RAM1,B_SBBVK,{O:xf_lsvk.0 probe ready},$F94C,1,93,YES_NO,3,$0001,K; /UMP,%UR_RAM1,B_SCATT,{D:FLAG02.3 isocarb 9141-2 is running (synchron.)},$0023,1,93,YES_NO,2,$0008,K; /UMP,%UR_RAM1,B_SLS,{O:x_sls.1 Condition SLS active},$F96C,1,93,YES_NO,3,$0002,K; /UMP,%UR_RAM1,B_ST,{D:FLAG4.1 start-status von ST_VORL im syncro uebernommen},$0028,1,93,YES_NO,2,$0002,K; /UMP,%UR_RAM1,B_STAA,{O:xf_st.0 einrechnung von STADAP im nachstart erlaubt},$F835,1,93,YES_NO,3,$0001,K; /UMP,%UR_RAM1,B_START,{O:xfdtes5.2 Start},$FDA4,1,93,YES_NO,3,$0004,K; /UMP,%UR_RAM1,B_STOPP,{O:xfdtes5.1 Stopp},$FDA4,1,93,YES_NO,3,$0002,K; /UMP,%UR_RAM1,B_ST_UK_MN,{O:xf_uk.0 startstatus UK-main1},$F9DF,1,93,YES_NO,3,$0001,K; /UMP,%UR_RAM1,B_ST_UK_SY,{O:xf_uk.1 startstatus UK-syncro},$F9DF,1,93,YES_NO,3,$0002,K; /UMP,%UR_RAM1,B_TACH_INI,{D:FLAG02.6 Initialisierung der v-Erfassung},$0023,1,93,YES_NO,2,$0040,K; /UMP,%UR_RAM1,B_TANKD,{O:xfdtes4.6 aktiv bei geschlossenem Tankdeckel},$FDA3,1,93,YES_NO,3,$0040,K; /UMP,%UR_RAM1,B_TDTAL,{O:xtfaflag.0 Additional conditions for minimum error are met},$FFB4,1,93,YES_NO,3,$0001,K; /UMP,%UR_RAM1,B_TDTEGR,{O:xfdtes7.1 Zähler xtdteab wurde mit TDTEGR geladen},$FDA6,1,93,YES_NO,3,$0002,K; /UMP,%UR_RAM1,B_TE,{O:xfr_te.4 B_TEI=1 oder TATE > 0},$F848,1,93,YES_NO,3,$0010,K; /UMP,%UR_RAM1,B_TEF,{O:xfr_te1.1 Zusammengefaßte Eingangsbed.},$F847,1,93,YES_NO,3,$0002,K; /UMP,%UR_RAM1,B_TEHB,{O:xfr_te.3 high load},$F848,1,93,YES_NO,3,$0008,K; /UMP,%UR_RAM1,B_TEI,{O:xfr_te.5 Tankentlüftungsphase},$F848,1,93,YES_NO,3,$0020,K; /UMP,%UR_RAM1,B_TEP,{O:xfr_te.0 TE aktiv},$F848,1,93,YES_NO,3,$0001,K; /UMP,%UR_RAM1,B_TESAE,{O:xfdtes2.1 gross leak vorhanden},$FDA1,1,93,YES_NO,3,$0002,K; /UMP,%UR_RAM1,B_TESAZ,{O:xfdtes3.2 gross leakprüfung beendet},$FDA2,1,93,YES_NO,3,$0004,K; /UMP,%UR_RAM1,B_TESE,{O:xfdtes2.4 TEV fehlerhaft offen},$FDA1,1,93,YES_NO,3,$0010,K; /UMP,%UR_RAM1,B_TESFE,{O:xfdtes2.2 fine leak vorhanden},$FDA1,1,93,YES_NO,3,$0004,K; /UMP,%UR_RAM1,B_TESFZ,{O:xfdtes3.0 fine leakprüfung beendet},$FDA2,1,93,YES_NO,3,$0001,K; /UMP,%UR_RAM1,B_TESFZ_A,{O:xfdtes4.4 Vorangegangener Status fine leakprüfung},$FDA3,1,93,YES_NO,3,$0010,K; /UMP,%UR_RAM1,B_TESGE,{O:xfdtes2.0 gross leak vorhanden},$FDA1,1,93,YES_NO,3,$0001,K; /UMP,%UR_RAM1,B_TESGKE,{O:xfdtes2.6 TEV fehlerhaft offen},$FDA1,1,93,YES_NO,3,$0040,K; /UMP,%UR_RAM1,B_TESGZ,{O:xfdtes3.1 gross leakprüfung beendet},$FDA2,1,93,YES_NO,3,$0002,K; /UMP,%UR_RAM1,B_TESOZE,{ DS-T-Signal unplausibel},$0020,1,93,YES_NO,2,$0020,K; /UMP,%UR_RAM1,B_TEVAB,{O:xfdtes5.5 TEV wird zugesteuert},$FDA4,1,93,YES_NO,3,$0020,K; /UMP,%UR_RAM1,B_TEVZU,{O:xfdtes4.1 TEV schließen},$FDA3,1,93,YES_NO,3,$0002,K; /UMP,%UR_RAM1,B_TFAFLR,{O:xtfaflag.5 Debounced error and not yet healed},$FFB4,1,93,YES_NO,3,$0020,K; /UMP,%UR_RAM1,B_TFAFLRDA,{O:xtfaflag.4 Fdebounced error and currently present},$FFB4,1,93,YES_NO,3,$0010,K; /UMP,%UR_RAM1,B_TFRA,{O:xfkvs.7 Adaptionszeit TFRAZ beendet},$FA9F,1,93,YES_NO,3,$0080,K; /UMP,%UR_RAM1,B_TGAZA,{O:xfr_te.7 Zeit TGAZA abgelaufen},$F848,1,93,YES_NO,3,$0080,K; /UMP,%UR_RAM1,B_TLFU,{O:XFLAG1.6 Bedingung tl-filter-umschaltung},$F87A,1,93,YES_NO,3,$0040,K; /UMP,%UR_RAM1,B_TLRSA,{O:xf_lr2.1 Ausschaltbed. fuer Lambdaregelung bei und nach Schub },$F827,1,93,YES_NO,3,$0002 K; /UMP,%UR_RAM1,B_TMDMM,{O:xtmodflag.7 Temperaturmodell läuft},$FCF7,1,93,YES_NO,3,$0080,K; /UMP,%UR_RAM1,B_TMDPAC,{O:xdpac_flag.0 prohibit the plasibility testing until tmot},$F96F,1,93,YES_NO,3,$0001,K; /UMP,%UR_RAM1,B_TMLR,{O:xf_lr2.2 Einschaltbed. für LR tmot > TMLR1,2 bzw tmot > TMLR1,2 + DTMR },$F827,1,93 YES_NO,3,$0004,K; /UMP,%UR_RAM1,B_TMODST,{O:xtmodflag.6 Startflagge, Zeitverzögert für TMOD},$FCF7,1,93,YES_NO,3,$0040,K; /UMP,%UR_RAM1,B_TMOTLU,{O:XFLAG1.7 DASE inaktiv, da TMOT USR},$FDA5,1,93,YES_NO,3,$0010,K; /UMP,%UR_RAM1,B_VL,{D:PORTE1.0 recognized full load},$0020,1,93,YES_NO,2,$0001,K; /UMP,%UR_RAM1,B_VLLREB,{O:xf_lr2.3 B_VLLREB = (n > NRVL) & B_VL},$F827,1,93,YES_NO,3,$0008,K; /UMP,%UR_RAM1,B_VMAXW,{O:xflag2.4 vmax soft limiter (about PSOLL)},$F87B,1,93,YES_NO,3,$0010,K; /UMP,%UR_RAM1,B_VOLLTK,{O:xfdtes1.6 Voller Tank erkannt},$FDA0,1,93,YES_NO,3,$0040,K; /UMP,%UR_RAM1,B_WEH,{O:fr_syn.0 WE condition hard},$009B,1,93,YES_NO,2,$0001,K; /UMP,%UR_RAM1,B_WRE,{O:xmcstat.4 Entriegel-Bit f.schreibende Funktionen},$F8ED,1,93,YES_NO,3,$0010,K; /UMP,%UR_RAM1,B_WUC,{O:xobdstat.3 Warming up recognized},$F9A4,1,93,YES_NO,3,$0008,K; /UMP,%UR_RAM1,B_ZEGE,{O:xobdstat.7 cycle bit - buffer or 0->1-recognized over transition},$F9A4,1,93,YES_NO,3,$0080,K; /UMP,%UR_RAM1,CAN_OK,{D:FLAG02.5 CAN-Bus arbeitet korrekt},$0023,1,93,YES_NO,2,$0020,K; /UMP,%UR_RAM1,CPULSB,{D:FLAG4.2 toggle bit for cpu control, 1:=opener is high},$0028,1,93,YES_NO,2,$0004,K; /UMP,%UR_RAM1,DIA_FREI,{O:xf_wfs.0 WFS protocol is completed, allow stimulation},$FAE3,1,93,YES_NO,3,$0001,K; /UMP,%UR_RAM1,DIA_RED,{O:xf_wfs.1 Writing the WFS Ram cells not approved},$FAE3,1,93,YES_NO,3,$0002,K; /UMP,%UR_RAM1,DIS_AAV,{O:xcj400dis.4 prohibit output charcoal valve},$FDDE,1,93,YES_NO,3,$0010,K; /UMP,%UR_RAM1,DIS_ML,{O:xcj400dis.5 Fan Motor Output Prohibit},$FDDE,1,93,YES_NO,3,$0020,K; /UMP,%UR_RAM1,DIS_SLS,{O:xcj400dis.6 Prohibit output SLS},$FDDE,1,93,YES_NO,3,$0040,K; /UMP,%UR_RAM1,DIS_TCV,{D:DIS_TI.5 prohibit turbo control valve},$002B,1,93,YES_NO,2,$0020,K; /UMP,%UR_RAM1,DIS_TEV,{O:xcj400dis.3 Output tank venting valve prohibit},$FDDE,1,93,YES_NO,3,$0008,K; /UMP,%UR_RAM1,DIS_TI1,{D:DIS_TI.0 verbot TI1 ! xflgtiab},$002B,1,93,YES_NO,2,$0001,K; /UMP,%UR_RAM1,DIS_TI2,{D:DIS_TI.1 verbot TI2 ! in xseg},$002B,1,93,YES_NO,2,$0002,K; /UMP,%UR_RAM1,DIS_TI3,{D:DIS_TI.2 verbot TI3 ! geht von},$002B,1,93,YES_NO,2,$0004,K; /UMP,%UR_RAM1,DIS_TI4,{D:DIS_TI.3 verbot TI4 ! dieser be-},$002B,1,93,YES_NO,2,$0008,K; /UMP,%UR_RAM1,DIS_TI5,{D:DIS_TI.4 verbot TI5 ! legung aus.},$002B,1,93,YES_NO,2,$0010,K; /UMP,%UR_RAM1,DIS_ZWD,{D:FLAG4.3 zwd-portschaltverbot von CJ400-diagnose},$0028,1,93,YES_NO,2,$0008,K; /UMP,%UR_RAM1,DIS_ZWD_O,{O:xcj400dis.1 Prohibit issuing ZWD Opener},$FDDE,1,93,YES_NO,3,$0002,K; /UMP,%UR_RAM1,DIS_ZWD_S,{O:xcj400dis.0 Prohibit issue ZWD-NO},$FDDE,1,93,YES_NO,3,$0001,K; /UMP,%UR_RAM1,DKSICH,{O:xf_lmr.7 DK-Poti defekt},$FFBD,1,93,YES_NO,3,$0080,K; /UMP,%UR_RAM1,DK_MAXFLR,{O:xf_wdk.4 DK-Poti-MAX-Fehler},$F921,1,93,YES_NO,3,$0010,K; /UMP,%UR_RAM1,DK_MINFLR,{O:xf_wdk.3 DK-Poti-MIN-Fehler},$F921,1,93,YES_NO,3,$0008,K; /UMP,%UR_RAM1,DPAC_MAX,{O:xdpac_flag.3 MAX-error (current)},$F96F,1,93,YES_NO,3,$0008,K; /UMP,%UR_RAM1,DPAC_MIN,{O:xdpac_flag.4 MIN-error (current)},$F96F,1,93,YES_NO,3,$0010,K; /UMP,%UR_RAM1,DPAC_PLAUS,{O:xdpac_flag.5 Plaus-Error (current)},$F96F,1,93,YES_NO,3,$0020,K; /UMP,%UR_RAM1,DRWUER,{O:XFLAG1.0 DRIVE wurde schon mal erkannt},$F87A,1,93,YES_NO,3,$0001,K; /UMP,%UR_RAM1,DSLSACT,{O:xdsls1.0 diagnosis active},$FAB3,1,93,YES_NO,3,$0001,K; /UMP,%UR_RAM1,DSLSMAX,{O:xdsls1.2 Max stop the regulator},$FAB3,1,93,YES_NO,3,$0004,K; /UMP,%UR_RAM1,DSLSMESS,{O:xdsls1.7 local software data},$FAB3,1,93,YES_NO,3,$0080,K; /UMP,%UR_RAM1,DTES_96,{O:xfdtes5.7 96 ms abgelaufen},$FDA4,1,93,YES_NO,3,$0080,K; /UMP,%UR_RAM1,DTES_X,{O:xfdtes5.6 Eingangsbedingungen erfüllt},$FDA4,1,93,YES_NO,3,$0040,K; /UMP,%UR_RAM1,DTLFERT,{O:XFLAG1.5 DTL-bildung abgeschlossen},$F87A,1,93,YES_NO,3,$0020,K; /UMP,%UR_RAM1,DYFLAG,{D:KRFLG2.7 Dynamikvorhalt aktiv},$002D,1,93,YES_NO,2,$0080,K; /UMP,%UR_RAM1,EKPFREQHO,{D:PORTE1.4 high frequency of EKP relay control},$0020,1,93,YES_NO,2,$0010,K; /UMP,%UR_RAM1,ERRORFLAG,{O:xcj400flg.0 It is an error exists},$FDDF,1,93,YES_NO,3,$0001,K; /UMP,%UR_RAM1,ERROR_XYZ,{D:FLAG1.0 any error within fcm is set},$0025,1,93,YES_NO,2,$0001,K; /UMP,%UR_RAM1,EV_ERROR,{O:xcj400flg.4 Communication bit error for EV},$FDDF,1,93,YES_NO,3,$0010,K; /UMP,%UR_RAM1,E_AAV,{O:xerflg5.3 fehler Valve active carbon filter (Fkt)},$F97A,1,93,YES_NO,3,$0008,K; /UMP,%UR_RAM1,E_AAVE,{O:xerflg5.4 fehler Valve active carbon filter (Endst.)},$F97A,1,93,YES_NO,3,$0010,K; /UMP,%UR_RAM1,E_AGRF,{O:xerflg4.7 fehler Überwachung EGR-FLOW},$F979,1,93,YES_NO,3,$0080,K; /UMP,%UR_RAM1,E_ASE,{O:xerflg2.5 fehler Aussetzererk., Summe, emission-relevant},$F977,1,93,YES_NO,3,$0020,K; /UMP,%UR_RAM1,E_ASE1,{O:xerflg2.6 fehler Misfire detection Cyl.1, emission-relevant},$F977,1,93,YES_NO,3,$0040,K; /UMP,%UR_RAM1,E_ASE2,{O:xerflg2.7 fehler Misfire detection Cyl.2, emission-relevant},$F977,1,93,YES_NO,3,$0080,K; /UMP,%UR_RAM1,E_ASE3,{O:xerflg3.0 fehler Misfire detection Cyl.3, emission-relevant},$F978,1,93,YES_NO,3,$0001,K; /UMP,%UR_RAM1,E_ASE4,{O:xerflg3.1 fehler Misfire detection Cyl.4, emission-relevant},$F978,1,93,YES_NO,3,$0002,K; /UMP,%UR_RAM1,E_ASE5,{O:xerflg3.2 fehler Misfire detection Cyl.5, emission-relevant},$F978,1,93,YES_NO,3,$0004,K; /UMP,%UR_RAM1,E_ASK,{O:xerflg3.3 fehler Aussetzererk., Summe, catalyst-damaging},$F978,1,93,YES_NO,3,$0008,K; /UMP,%UR_RAM1,E_ASK1,{O:xerflg3.4 fehler Misfire detection Cyl.1, kat.-schädige},$F978,1,93,YES_NO,3,$0010,K; /UMP,%UR_RAM1,E_ASK2,{O:xerflg3.5 fehler Misfire detection Cyl.2, kat.-schädige},$F978,1,93,YES_NO,3,$0020,K; /UMP,%UR_RAM1,E_ASK3,{O:xerflg3.6 fehler Misfire detection Cyl.3, kat.-schädige},$F978,1,93,YES_NO,3,$0040,K; /UMP,%UR_RAM1,E_ASK4,{O:xerflg3.7 fehler Misfire detection Cyl.4, kat.-schädige},$F978,1,93,YES_NO,3,$0080,K; /UMP,%UR_RAM1,E_ASK5,{O:xerflg4.0 fehler Misfire detection Cyl.5, kat.-schädige},$F979,1,93,YES_NO,3,$0001,K; /UMP,%UR_RAM1,E_BAA,{O:xerflg9.6 error adaptation required at the stop},$F97E,1,93,YES_NO,3,$0040,K; /UMP,%UR_RAM1,E_BM,{O:xerflg6.3 fehler Reference mark sensor},$F97B,1,93,YES_NO,3,$0008,K; /UMP,%UR_RAM1,E_CGE,{O:xerflg10.2 fehler CAN-Interface, Timeout EGS},$F97F,1,93,YES_NO,3,$0004,K; /UMP,%UR_RAM1,E_CIF,{O:xerflg9.5 fehler CAN-Interface, interner Fehler},$F97E,1,93,YES_NO,3,$0020,K; /UMP,%UR_RAM1,E_DF,{O:xerflg11.1 fehler pressure sensor},$F980,1,93,YES_NO,3,$0002,K; /UMP,%UR_RAM1,E_DK,{O:xerflg6.6 fehler DK - Potentiometer},$F97B,1,93,YES_NO,3,$0040,K; /UMP,%UR_RAM1,E_DK_HA,{O:x_fbgfha.2 DK-Fehler},$F8CA,1,93,YES_NO,3,$0004,K; /UMP,%UR_RAM1,E_DPL,{O:xerflg6.1 fehler Dauerplus},$F97B,1,93,YES_NO,3,$0002,K; /UMP,%UR_RAM1,E_DST,{O:xerflg5.6 fehler Drucksensor Tank},$F97A,1,93,YES_NO,3,$0040,K; /UMP,%UR_RAM1,E_DTV,{O:xerflg2.2 fehler LR-adaptation ti-additive},$F977,1,93,YES_NO,3,$0004,K; /UMP,%UR_RAM1,E_EGA,{O:xerflg8.4 fehler unknown error output stages (Gruppe A)},$F97D,1,93,YES_NO,3,$0010,K; /UMP,%UR_RAM1,E_EGB,{O:xerflg8.5 fehler unknown error output stages (Gruppe B)},$F97D,1,93,YES_NO,3,$0020,K; /UMP,%UR_RAM1,E_EGC,{O:xerflg8.6 fehler unknown error output stages (Gruppe C)},$F97D,1,93,YES_NO,3,$0040,K; /UMP,%UR_RAM1,E_EGD,{O:xerflg8.7 fehler unknown error output stages (Gruppe D)},$F97D,1,93,YES_NO,3,$0080,K; /UMP,%UR_RAM1,E_EGE,{O:xerflg9.0 fehler unknown error output stages (Gruppe E)},$F97E,1,93,YES_NO,3,$0001,K; /UMP,%UR_RAM1,E_EGF,{O:xerflg9.1 fehler unknown error output stages (Gruppe F)},$F97E,1,93,YES_NO,3,$0002,K; /UMP,%UR_RAM1,E_EV1,{O:xerflg7.3 fehler EV of Cyl. 1},$F97C,1,93,YES_NO,3,$0008,K; /UMP,%UR_RAM1,E_EV2,{O:xerflg7.4 fehler EV of Cyl. 2},$F97C,1,93,YES_NO,3,$0010,K; /UMP,%UR_RAM1,E_EV3,{O:xerflg7.5 fehler EV of Cyl. 3},$F97C,1,93,YES_NO,3,$0020,K; /UMP,%UR_RAM1,E_EV4,{O:xerflg7.6 fehler EV of Cyl. 4},$F97C,1,93,YES_NO,3,$0040,K; /UMP,%UR_RAM1,E_EV5,{O:xerflg7.7 fehler EV of Cyl. 5},$F97C,1,93,YES_NO,3,$0080,K; /UMP,%UR_RAM1,E_FRA,{O:xerflg2.0 fehler LR-adaptation multiplikativ},$F977,1,93,YES_NO,3,$0001,K; /UMP,%UR_RAM1,E_HSH,{O:xerflg1.4 fehler Lambda probe heating behind catalytic converter},$F976,1,93,YES_NO,3,$0010,K; /UMP,%UR_RAM1,E_HSV,{O:xerflg1.3 fehler Oxygen sensor heating before catalytic converter},$F976,1,93,YES_NO,3,$0008,K; /UMP,%UR_RAM1,E_KAT,{O:xerflg2.4 error catalytic converter},$F977,1,93,YES_NO,3,$0010,K; /UMP,%UR_RAM1,E_KRT,{O:xerflg9.4 fehler Knock Control Test Pulse},$F97E,1,93,YES_NO,3,$0010,K; /UMP,%UR_RAM1,E_KS1,{O:xerflg9.2 fehler knock sensor 1},$F97E,1,93,YES_NO,3,$0004,K; /UMP,%UR_RAM1,E_KS2,{O:xerflg9.3 fehler knock sensor 2},$F97E,1,93,YES_NO,3,$0008,K; /UMP,%UR_RAM1,E_LASH,{O:xerflg1.7 fehler Lambda probe aging behind cat},$F976,1,93,YES_NO,3,$0080,K; /UMP,%UR_RAM1,E_LATP,{O:xerflg1.5 fehler Lambda probe aging TP},$F976,1,93,YES_NO,3,$0020,K; /UMP,%UR_RAM1,E_LATV,{O:xerflg1.6 fehler Lambda probe aging TV},$F976,1,93,YES_NO,3,$0040,K; /UMP,%UR_RAM1,E_LDAB,{O:xerflg9.7 fehler Boost pressure reduction},$F97E,1,93,YES_NO,3,$0080,K; /UMP,%UR_RAM1,E_LDE,{O:xerflg8.3 fehler Boost pressure control valve (Endstufe)},$F97D,1,93,YES_NO,3,$0008,K; /UMP,%UR_RAM1,E_LDO,{O:xerflg10.0 exceeded upper value; Boost pressure error},$F97F,1,93,YES_NO,3,$0001,K; /UMP,%UR_RAM1,E_LDRA,{O:xerflg10.1 fehler Boost pressure deviation},$F97F,1,93,YES_NO,3,$0002,K; /UMP,%UR_RAM1,E_LE,{O:xerflg11.2 fehler load detection},$F980,1,93,YES_NO,3,$0004,K; /UMP,%UR_RAM1,E_LM,{O:xerflg6.5 fehler LMM/HLM/HFM},$F97B,1,93,YES_NO,3,$0020,K; /UMP,%UR_RAM1,E_LM_HA,{O:x_fbgfha.1 HFM-Fehler},$F8CA,1,93,YES_NO,3,$0002,K; /UMP,%UR_RAM1,E_LSH,{O:xerflg1.2 fehler Lambda-Sonde behind cat},$F976,1,93,YES_NO,3,$0004,K; /UMP,%UR_RAM1,E_LSV,{O:xerflg1.1 fehler Lambda-Sonde vor Kat},$F976,1,93,YES_NO,3,$0002,K; /UMP,%UR_RAM1,E_LUEA,{O:xerflg10.6 fehler Endstufe Lüfter A},$F97F,1,93,YES_NO,3,$0040,K; /UMP,%UR_RAM1,E_MFA,{O:xerflg2.3 fehler MIL-fremdbestimmt},$F977,1,93,YES_NO,3,$0008,K; /UMP,%UR_RAM1,E_MFB,{O:xerflg8.0 fehler MIL-Request - Leitung},$F97D,1,93,YES_NO,3,$0001,K; /UMP,%UR_RAM1,E_N,{O:xerflg6.2 error speed signal generator},$F97B,1,93,YES_NO,3,$0004,K; /UMP,%UR_RAM1,E_NO,{O:xerflg1.0 fehler Sonderfall},$F976,1,93,YES_NO,3,$0001,K; /UMP,%UR_RAM1,E_NSYN,{D:FLAGBM.2 entry point about resynchronization},$0024,1,93,YES_NO,2,$0004,K; /UMP,%UR_RAM1,E_OBDLR,{O:xf_lr2.5 (B_LRSTSL & !B_DSLSA) V E_ask V E_ev },$F827,1,93,YES_NO,3,$0020,K; /UMP,%UR_RAM1,E_PAC,{O:xerflg7.2 error pressure in climate system},$F97C,1,93,YES_NO,3,$0004,K; /UMP,%UR_RAM1,E_PH,{O:xerflg6.4 error cam sensor},$F97B,1,93,YES_NO,3,$0010,K; /UMP,%UR_RAM1,E_SGROM,{O:xerflg5.7 fehler Steuergerät defekt (ROM)},$F97A,1,93,YES_NO,3,$0080,K; /UMP,%UR_RAM1,E_SLP,{O:xerflg4.3 fehler Secondary Air Pump},$F979,1,93,YES_NO,3,$0008,K; /UMP,%UR_RAM1,E_SLPE,{O:xerflg4.5 fehler Secondary Air Pump (Endstufe)},$F979,1,93,YES_NO,3,$0020,K; /UMP,%UR_RAM1,E_SLPMAX,{O:xdsls2.4 Max-Fehler SLP},$FAB4,1,93,YES_NO,3,$0010,K; /UMP,%UR_RAM1,E_SLPMIN,{O:xdsls2.3 Min-Fehler SLP},$FAB4,1,93,YES_NO,3,$0008,K; /UMP,%UR_RAM1,E_SLS,{O:xerflg4.2 fehler Secondary Air System},$F979,1,93,YES_NO,3,$0004,K; /UMP,%UR_RAM1,E_SLV,{O:xerflg4.4 fehler Secondary Air Valve},$F979,1,93,YES_NO,3,$0010,K; /UMP,%UR_RAM1,E_SLVE,{O:xerflg4.6 fehler Secondary Air Valve (Endstufe)},$F979,1,93,YES_NO,3,$0040,K; /UMP,%UR_RAM1,E_SLVMAX,{O:xdsls2.6 Max-Fehler SLV},$FAB4,1,93,YES_NO,3,$0040,K; /UMP,%UR_RAM1,E_SLVMIN,{O:xdsls2.5 Min-Fehler SLV},$FAB4,1,93,YES_NO,3,$0020,K; /UMP,%UR_RAM1,E_SWE,{O:xerflg4.1 rough road acceleration sensor error.},$F979,1,93,YES_NO,3,$0002,K; /UMP,%UR_RAM1,E_TA,{O:xerflg10.7 fehler TANS},$Z,1,93,YES_NO,3,$0080,K; /UMP,%UR_RAM1,E_TES,{O:xerflg5.2 fehler tank venting system},$F97A,1,93,YES_NO,3,$0004,K; /UMP,%UR_RAM1,E_TESF,{O:xerflg5.0 fehler tank venting system fine leak},$F97A,1,93,YES_NO,3,$0001,K; /UMP,%UR_RAM1,E_TESG,{O:xerflg5.1 fehler tank venting system gross leak},$F97A,1,93,YES_NO,3,$0002,K; /UMP,%UR_RAM1,E_TEVE,{O:xerflg5.5 fehler tank venting valve Endstufe},$F97A,1,93,YES_NO,3,$0020,K; /UMP,%UR_RAM1,E_TM,{O:xerflg7.0 fehler TMOT},$F97C,1,93,YES_NO,3,$0001,K; /UMP,%UR_RAM1,E_TMUM,{O:xerflg10.3 fehler TMOT-changeover},$F97F,1,93,YES_NO,3,$0008,K; /UMP,%UR_RAM1,E_TRA,{O:xerflg2.1 fehler LR-adaptation QL-additiv},$F977,1,93,YES_NO,3,$0002,K; /UMP,%UR_RAM1,E_TX,{O:xerflg7.1 fehler Temperature EBOX},$F97C,1,93,YES_NO,3,$0002,K; /UMP,%UR_RAM1,E_TX1S,{O:xerflg10.4 fehler Temperature EBOX 1. Schwelle},$F97F,1,93,YES_NO,3,$0010,K; /UMP,%UR_RAM1,E_TX2S,{O:xerflg10.5 fehler Temperature EBOX 2. Schwelle},$F97F,1,93,YES_NO,3,$0020,K; /UMP,%UR_RAM1,E_UB,{O:xerflg6.0 fehler UB},$F97B,1,93,YES_NO,3,$0001,K; /UMP,%UR_RAM1,E_VFZ,{O:xerflg6.7 fehler Vehicle speed},$F97B,1,93,YES_NO,3,$0080,K; /UMP,%UR_RAM1,E_WFS,{O:xerflg11.0 fehler immobilizer},$F980,1,93,YES_NO,3,$0001,K; /UMP,%UR_RAM1,E_ZO,{O:xerflg8.1 fehler Opened idle adjuster},$F97D,1,93,YES_NO,3,$0002,K; /UMP,%UR_RAM1,E_ZS,{O:xerflg8.2 fehler Close idle adjuster},$F97D,1,93,YES_NO,3,$0004,K; /UMP,%UR_RAM1,FAN1_1,{O:xmainfa3.4 status fan1/1 ; 1= running},$F8B4,1,93,YES_NO,3,$0010,K; /UMP,%UR_RAM1,FAN1_2,{O:xmainfa3.3 status fan1/2 ; 1= running},$F8B4,1,93,YES_NO,3,$0008,K; /UMP,%UR_RAM1,FAREADY,{O:xluaflg.1 Adaption abgeschlossen},$FB4C,1,93,YES_NO,3,$0002,K; /UMP,%UR_RAM1,FDKERR,{O:xf_wdk.0 DK-Fehler erkannt},$F921,1,93,YES_NO,3,$0001,K; /UMP,%UR_RAM1,FD_AFTERUN,{D:FLAG4.5 nachlaufstatus},$0028,1,93,YES_NO,2,$0020,K; /UMP,%UR_RAM1,FD_PULLUP,{D:FLAG02.0 status ntc-umschaltung},$0023,1,93,YES_NO,2,$0001,K; /UMP,%UR_RAM1,FI_LRHK,{O:xsthk.6 ML-Integrator aktiv nach Schub},$FBBE,1,93,YES_NO,3,$0040,K; /UMP,%UR_RAM1,FLGDIA,{D:FLAG5.2 Indikator fuer Diagnose Ausgabe},$0029,1,93,YES_NO,2,$0004,K; /UMP,%UR_RAM1,FLGINI,{D:FLAG4.0 Indikator Initialisierung},$0028,1,93,YES_NO,2,$0001,K; /UMP,%UR_RAM1,FLGKSS,{O:xf_st.2 waehrend ST=1: indikator 'B2 ist aktiv'},$F835,1,93,YES_NO,3,$0004,K; /UMP,%UR_RAM1,FLGSA,{D:FLAG3.0 Indikator Schubabschneiden},$0027,1,93,YES_NO,2,$0001,K; /UMP,%UR_RAM1,FLGSYN,{D:FLAGBM.3 Indikator 'SYNCRO' aktiv},$0024,1,93,YES_NO,2,$0008,K; /UMP,%UR_RAM1,FLR_DA_TRI,{O:xtmodflag.4 Trigger für Entprellzeit},$FCF7,1,93,YES_NO,3,$0010,K; /UMP,%UR_RAM1,FLUADP,{O:xluaflg.0 Adaption laeuft},$FB4C,1,93,YES_NO,3,$0001,K; /UMP,%UR_RAM1,FON_DLS,{old name --> do not use for future modules},$0020,1,93,YES_NO,2,$0001,K; /UMP,%UR_RAM1,FO_BRANCH1,{O:xmainfa5.0 description in program},$F8B6,1,93,YES_NO,3,$0001,K; /UMP,%UR_RAM1,FO_BRANCH2,{O:xmainfa5.1 description in program},$F8B6,1,93,YES_NO,3,$0002,K; /UMP,%UR_RAM1,FO_BRANCH3,{O:xmainfa5.2 description in program},$F8B6,1,93,YES_NO,3,$0004,K; /UMP,%UR_RAM1,FO_FURTH,{O:xmainfa5.3 indicates first run through has},$F8B6,1,93,YES_NO,3,$0008,K; /UMP,%UR_RAM1,FO_LOG11,{O:xmainfa2.0 coolant temp. above limit - TMLF1},$F8B3,1,93,YES_NO,3,$0001,K; /UMP,%UR_RAM1,FO_LOG12,{O:xmainfa1.3 vehicle speed below limit-VLF1},$F8B2,1,93,YES_NO,3,$0008,K; /UMP,%UR_RAM1,FO_LOG14,{O:xmainfa1.2 engine speed above limit-nlf},$F8B2,1,93,YES_NO,3,$0004,K; /UMP,%UR_RAM1,FO_LOG15,{O:xmainfa1.1 AC-ON flag is set to active},$F8B2,1,93,YES_NO,3,$0002,K; /UMP,%UR_RAM1,FO_LOG16,{O:xmainfa1.4 when FO_LOG15: delay time},$F8B2,1,93,YES_NO,3,$0010,K; /UMP,%UR_RAM1,FO_LOG18,{O:xmainfa2.2 TMOT - error},$F8B3,1,93,YES_NO,3,$0004,K; /UMP,%UR_RAM1,FO_LOG18A,{O:xmainfa4.2 tmot error},$F8B5,1,93,YES_NO,3,$0004,K; /UMP,%UR_RAM1,FO_LOG21,{O:xmainfa1.7 vehicle speed below limit-VLF2},$F8B2,1,93,YES_NO,3,$0080,K; /UMP,%UR_RAM1,FO_LOG22,{O:xmainfa4.3 main_fan controlled by D2},$F8B5,1,93,YES_NO,3,$0008,K; /UMP,%UR_RAM1,FO_LOG24,{O:xmainfa4.0 Hosenrohrmodell},$F8B5,1,93,YES_NO,3,$0001,K; /UMP,%UR_RAM1,FO_LOG25,{O:xmainfa4.1 coolant temp. above limit},$F8B5,1,93,YES_NO,3,$0002,K; /UMP,%UR_RAM1,FO_LOG27,{O:xmainfa4.4 coolant temp. above limit},$F8B5,1,93,YES_NO,3,$0010,K; /UMP,%UR_RAM1,FO_LOG28,{O:xmainfa4.5 coolant temp. above limit},$F8B5,1,93,YES_NO,3,$0020,K; /UMP,%UR_RAM1,FO_LOG31,{O:xmainfa2.4 fan1/2 has been running for more than 5s},$F8B3,1,93,YES_NO,3,$0010,K; /UMP,%UR_RAM1,FO_LOG32,{O:xmainfa2.5 coolant temperature above limit - TMLF2},$F8B3,1,93,YES_NO,3,$0020,K; /UMP,%UR_RAM1,FO_LOG60,{O:xmainfa1.0 ac_pressure above ac_p2},$F8B2,1,93,YES_NO,3,$0001,K; /UMP,%UR_RAM1,FO_LOG61,{O:xmainfa1.6 vehicle speed below limit-VLF4},$F8B2,1,93,YES_NO,3,$0040,K; /UMP,%UR_RAM1,FO_LOG62,{O:xmainfa2.7 ac_pressure above ac_p3},$F8B3,1,93,YES_NO,3,$0080,K; /UMP,%UR_RAM1,FO_LOG63,{O:xmainfa2.1 mixture of speed and pressure},$F8B3,1,93,YES_NO,3,$0002,K; /UMP,%UR_RAM1,FO_LOG64,{O:xmainfa2.6 output stage of fan1/2 must not be changed},$F8B3,1,93,YES_NO,3,$0040,K; /UMP,%UR_RAM1,FO_LOG80,{O:xmainfa1.5 E-box temperature above limit (tebox)},$F8B2,1,93,YES_NO,3,$0020,K; /UMP,%UR_RAM1,FO_LOG81,{O:xmainfa2.3 E-box temperature - error},$F8B3,1,93,YES_NO,3,$0008,K; /UMP,%UR_RAM1,FO_MEMHFMF,{O:x_flaghfm.1 HFM-MIN-Fehler Memory speichern},$FAC5,1,93,YES_NO,3,$0002,K; /UMP,%UR_RAM1,FO_MINFLR,{O:x_flaghfm.0 HFM-MIN-Fehler speichern},$FAC5,1,93,YES_NO,3,$0001,K; /UMP,%UR_RAM1,FO_WNSTNEW,{O:x_wst.4 topical (n) repeated engine after start status},$FAAD,1,93,YES_NO,3,$0010,K; /UMP,%UR_RAM1,FO_WNSTNS3,{O:x_wst.7 set if xwsttimer4 has been computed ( once per t},$FAAD,1,93,YES_NO,3,$0080,K; /UMP,%UR_RAM1,FO_WNSTOLD,{O:x_wst.5 previous (n-1) repeated engine after start statu},$FAAD,1,93,YES_NO,3,$0020,K; /UMP,%UR_RAM1,FO_WNSTSTA,{O:x_wst.6 set if fo_wnstnew set for the first time ( trip)},$FAAD,1,93,YES_NO,3,$0040,K; /UMP,%UR_RAM1,FO_WSTKS2,{O:x_wst.3 set if xwsttimer2 has been computed ( once per t},$FAAD,1,93,YES_NO,3,$0008,K; /UMP,%UR_RAM1,FO_WSTNEW,{O:x_wst.0 topical (n) repeated engine start status},$FAAD,1,93,YES_NO,3,$0001,K; /UMP,%UR_RAM1,FO_WSTOLD,{O:x_wst.1 previous (n-1)repeated engine start status},$FAAD,1,93,YES_NO,3,$0002,K; /UMP,%UR_RAM1,FO_WSTSTA,{O:x_wst.2 set if fo_wstnew set for the first time ( trip)},$FAAD,1,93,YES_NO,3,$0004,K; /UMP,%UR_RAM1,FSA_LR,{O:xf_lr.1 Alter Zustand: Lambdasignal},$F820,1,93,YES_NO,3,$0002,K; /UMP,%UR_RAM1,FSN_DSLS,{O:xdsls1.6 Status of the LR for lean / rich recognition},$FAB3,1,93,YES_NO,3,$0040,K; /UMP,%UR_RAM1,FSN_DSLS1,{O:xdsls2.1 Status der LR für Mager/Fett-Erkennung},$FAB4,1,93,YES_NO,3,$0002,K; /UMP,%UR_RAM1,FSN_LR,{O:xf_lr.3 Aktueller Zustand: Lambdasignal},$F820,1,93,YES_NO,3,$0008,K; /UMP,%UR_RAM1,FSN_OLD,{O:xsthk.4 old status: ( rich or lean )},$FBBE,1,93,YES_NO,3,$0010,K; /UMP,%UR_RAM1,FTL_LR,{O:xf_lr.2 Load monitoring: LR released},$F820,1,93,YES_NO,3,$0004,K; /UMP,%UR_RAM1,FTMERR,{O:xf_wdk.1 TMOT-Fehler},$F921,1,93,YES_NO,3,$0002,K; /UMP,%UR_RAM1,FT_LRHK,{O:xsthk.0 Zeitrasteruntersetzung 24ms->48ms},$FBBE,1,93,YES_NO,3,$0001,K; /UMP,%UR_RAM1,FU_DDST,{O:xfddst.3 Timeruntersetzung 5ms-10ms |b_true|},$FDDA,1,93,YES_NO,3,$0008,K; /UMP,%UR_RAM1,FVS_LR,{O:xf_lr.4 Verschiebungsrichtung: fett oder mager},$F820,1,93,YES_NO,3,$0010,K; /UMP,%UR_RAM1,F_2SUM,{O:xluflg.1 Einrechnung des 2. Summanden },$FB00,1,93,YES_NO,3,$0002,K; /UMP,%UR_RAM1,F_ANALU,{O:xluflg.5 Ausblendung nach Aussetzer },$FB00,1,93,YES_NO,3,$0020,K; /UMP,%UR_RAM1,F_ASEBR,{D:FLAG01.3 laufunruhe, background synchronisiert},$0022,1,93,YES_NO,2,$0008,K; /UMP,%UR_RAM1,F_ASERD,{D:FLAG01.2 laufunruheauswertung moeglich},$0022,1,93,YES_NO,2,$0004,K; /UMP,%UR_RAM1,F_ASEST,{D:FLAG01.1 laufunruhemessung gestartet},$0022,1,93,YES_NO,2,$0002,K; /UMP,%UR_RAM1,F_ASETZ,{O:xluflg.2 Aussetzer erkannt },$FB00,1,93,YES_NO,3,$0004,K; /UMP,%UR_RAM1,F_AUS_RE,{O:xluflg.7 Ausblendungs Anforderung},$FB00,1,93,YES_NO,3,$0080,K; /UMP,%UR_RAM1,F_BHUBV,{O:xe_lsvk.1 Flipflop: limited voltage swing},$F94D,1,93,YES_NO,3,$0002,K; /UMP,%UR_RAM1,F_BMSEG,{D:KRFLG1.6 Segment in Zahnluecke},$002C,1,93,YES_NO,2,$0040,K; /UMP,%UR_RAM1,F_BRLSH,{O:xf_lshk.1 probe cold-Sondenleitungsbruch},$F960,1,93,YES_NO,3,$0002,K; /UMP,%UR_RAM1,F_BRLSV,{O:xf_lsvk.1 probe cold-Sondenleitungsbruch},$F94C,1,93,YES_NO,3,$0002,K; /UMP,%UR_RAM1,F_CJ400MAS,{O:xcj400flg.1 CJ400-Diagnose},$FDDF,1,93,YES_NO,3,$0002,K; /UMP,%UR_RAM1,F_DDFFPL,{O:XDDFFLG.0 Plausi.-Fehler, aktuell},$F8F9,1,93,YES_NO,3,$0001,K; /UMP,%UR_RAM1,F_DDFFPL1,{O:XDDFFLG.1 Plausi.-Fehler, intern entprellt},$F8F9,1,93,YES_NO,3,$0002,K; /UMP,%UR_RAM1,F_HG,{O:xflag7.1 changeover automatic/manual transmission KFLF},$F846,1,93,YES_NO,3,$0002,K; /UMP,%UR_RAM1,F_KATF1,{O:xflgkat.1 Einschaltbedingungen Fehlerspeicher},$F9CA,1,93,YES_NO,3,$0002,K; /UMP,%UR_RAM1,F_KATNTL,{O:xflgkat.2 Switch-speed / load},$F9CA,1,93,YES_NO,3,$0004,K; /UMP,%UR_RAM1,F_KAT_T,{O:xflgkat.0 Zeit-Untersetzung 24ms/48ms},$F9CA,1,93,YES_NO,3,$0001,K; /UMP,%UR_RAM1,F_KK1,{O:xflgkat.5 Schritt 1 (Filtermatrix ueberwachen)},$F9CA,1,93,YES_NO,3,$0020,K; /UMP,%UR_RAM1,F_KK2,{O:xflgkat.6 Schritt 2 (Readyzaehler bedienen)},$F9CA,1,93,YES_NO,3,$0040,K; /UMP,%UR_RAM1,F_KO_M,{O:xf_lfr.4 Klimakompressor 'ein'},$F836,1,93,YES_NO,3,$0010,K; /UMP,%UR_RAM1,F_KRTM,{D:KRFLG2.0 status: 'Nicht Start und Tmot > TMKR'},$002D,1,93,YES_NO,2,$0001,K; /UMP,%UR_RAM1,F_KSAH,{O:xe_lshk.2 Wire circuit probe-Sondenmasse},$F961,1,93,YES_NO,3,$0004,K; /UMP,%UR_RAM1,F_KSAKV,{O:xlsvk.0 Flipflop: Adernschluß bei kalter Sonde},$F94E,1,93,YES_NO,3,$0001,K; /UMP,%UR_RAM1,F_KSAV,{O:xe_lsvk.2 Wire circuit probe-Sondenmasse},$F94D,1,93,YES_NO,3,$0004,K; /UMP,%UR_RAM1,F_KSMH,{O:xe_lshk.4 Short circuit probe-DG},$F961,1,93,YES_NO,3,$0010,K; /UMP,%UR_RAM1,F_KSMV,{O:xe_lsvk.4 Short circuit probe-DG},$F94D,1,93,YES_NO,3,$0010,K; /UMP,%UR_RAM1,F_KSUBH,{O:xe_lshk.3 Short circuit-UB probe},$F961,1,93,YES_NO,3,$0008,K; /UMP,%UR_RAM1,F_KSUBV,{O:xe_lsvk.3 Short circuit-UB probe},$F94D,1,93,YES_NO,3,$0008,K; /UMP,%UR_RAM1,F_LAMP,{D:FLAG2.4 Fehlerlampenbuffer [ 0 --> activ ]},$0026,1,93,YES_NO,2,$0010,K; /UMP,%UR_RAM1,F_LLMEM,{O:xluflg.4 Memory für LL->TL-Erkennung},$FB00,1,93,YES_NO,3,$0010,K; /UMP,%UR_RAM1,F_LR,{D:FLAG5.5 Lambdaregelung 'ein' - Normalbetrieb (alter name)},$0029,1,93,YES_NO,2,$0020,K; /UMP,%UR_RAM1,F_LSASTP,{O:xfdlsa.0 Fehlersperrbedingung: DLSA stop},$F8D9,1,93,YES_NO,3,$0001,K; /UMP,%UR_RAM1,F_LSGND,{O:xlsvk.4 Flipflop: Masseschluß Sonde v/h Kat},$F94E,1,93,YES_NO,3,$0010,K; /UMP,%UR_RAM1,F_LSSA20,{O:xf_lssa.6 Timeruntersetzung 10->20(12->24) ms},$FAC8,1,93,YES_NO,3,$0040,K; /UMP,%UR_RAM1,F_LSSA40,{O:xf_lssa.7 Timeruntersetzung 20->40(24->36) ms},$FAC8,1,93,YES_NO,3,$0080,K; /UMP,%UR_RAM1,F_LSSAFF,{O:xf_lssa.0 Fallende Flanke Lambdasignal},$FAC8,1,93,YES_NO,3,$0001,K; /UMP,%UR_RAM1,F_LSSAMO,{O:xf_lssa.1 Monotonieüberwachung ist aktiv},$FAC8,1,93,YES_NO,3,$0002,K; /UMP,%UR_RAM1,F_LUDTL,{O:xluflg.3 Ausblendung bei dTL > DTLALU},$FB00,1,93,YES_NO,3,$0008,K; /UMP,%UR_RAM1,F_NST,{D:FLAG6.5 Nachstartadaption},$002A,1,93,YES_NO,2,$0020,K; /UMP,%UR_RAM1,F_NULFEH,{O:xdkrif.1 Grenzwert f. Nulltest ueberschritten},$FA96,1,93,YES_NO,3,$0002,K; /UMP,%UR_RAM1,F_NULTES,{O:xdkrif.0 Nulltest erfolgt},$FA96,1,93,YES_NO,3,$0001,K; /UMP,%UR_RAM1,F_PVKSTP,{O:xfdlsa.2 Sperrbedingung Periodendauerueberwachung},$F8D9,1,93,YES_NO,3,$0004,K; /UMP,%UR_RAM1,F_QVNS,{O:xf_lfr.7 Afterstart limitation of the air control},$F836,1,93,YES_NO,3,$0080,K; /UMP,%UR_RAM1,F_SENFEH1,{O:xf_kr.0 Sensor 1 Fehler nicht entprellt},$FA80,1,93,YES_NO,3,$0001,K; /UMP,%UR_RAM1,F_SENFEH2,{O:xf_kr.1 Sensor 2 Fehler nicht entprellt},$FA80,1,93,YES_NO,3,$0002,K; /UMP,%UR_RAM1,F_SLP,{D:FLAG01.5 Sekundaerluftpumpe EIN=1/AUS=0},$0022,1,93,YES_NO,2,$0020,K; /UMP,%UR_RAM1,F_SLPALT,{O:x_sls.5 alter Zustand F_SLP (SW-Bit)},$F96C,1,93,YES_NO,3,$0020,K; /UMP,%UR_RAM1,F_T500,{O:xobdstat.6 500ms Bit},$F9A4,1,93,YES_NO,3,$0040,K; /UMP,%UR_RAM1,F_TERMB,{O:xluflg.0 Selektion LU-TERM-B/LUTERM-A },$FB00,1,93,YES_NO,3,$0001,K; /UMP,%UR_RAM1,F_TMK,{O:xf_st.1 tmot <= TMK (Kaltstartindikator)},$F835,1,93,YES_NO,3,$0002,K; /UMP,%UR_RAM1,F_TMKRA,{D:KRFLG2.1 KR-Adaption freigegeben},$002D,1,93,YES_NO,2,$0002,K; /UMP,%UR_RAM1,F_TMKRVF,{O:xf_kr.2 TMOT-Schwelle fuer KR-Aufregelung},$FA80,1,93,YES_NO,3,$0004,K; /UMP,%UR_RAM1,F_TNALU,{O:xluflg.6 Ausblendung n. Aussetzer (Testphase)},$FB00,1,93,YES_NO,3,$0040,K; /UMP,%UR_RAM1,F_TRLSH,{O:xe_lshk.0 Tripbedingung erfüllt},$F961,1,93,YES_NO,3,$0001,K; /UMP,%UR_RAM1,F_TRLSV,{O:xe_lsvk.0 Tripbedingung erfüllt},$F94D,1,93,YES_NO,3,$0001,K; /UMP,%UR_RAM1,F_VBGR,{D:FLAG6.0 ti-Abschaltung bei Ueberschreiten von Vmax},$002A,1,93,YES_NO,2,$0001,K; /UMP,%UR_RAM1,F_VMIN,{O:xf_lfr.5 v> Vmin (= vehicle is not)},$F836,1,93,YES_NO,3,$0020,K; /UMP,%UR_RAM1,F_WFSWP,{D:FLAG5.6 Werkspruefung aktiv (wegfahrsperre)},$0029,1,93,YES_NO,2,$0040,K; /UMP,%UR_RAM1,F_ZEV,{D:FLAGBM.7 'CLR FLGINI'-verbot bis 1.maindurchlauf fer-},$0024,1,93,YES_NO,2,$0080,K; /UMP,%UR_RAM1,F_ZWVG,{D:FLAG6.2 ZW-Verstellung Getriebe},$002A,1,93,YES_NO,2,$0004,K; /UMP,%UR_RAM1,G_DTLDLE,{O:xf_dle.2 Gültigkeitsbit für B_DTLDLE},$FAF8,1,93,YES_NO,3,$0004,K; /UMP,%UR_RAM1,IN_TKF,{},$0020,1,93,YES_NO,2,$0001,K; /UMP,%UR_RAM1,I_STOP,{O:xf_lmr.4 Integratorstop},$FFBD,1,93,YES_NO,3,$0010,K; /UMP,%UR_RAM1,KLOPJN,{D:PORTE1.2 status knock yes / no, 1 := es klopft.},$0020,1,93,YES_NO,2,$0004,K; /UMP,%UR_RAM1,KLSCHB,{D:KRFLG2.2 knock control enabled},$002D,1,93,YES_NO,2,$0004,K; /UMP,%UR_RAM1,KVA_I,{D:FLAG4.7 KVA gestartet},$0028,1,93,YES_NO,2,$0080,K; /UMP,%UR_RAM1,LDSICH,{O:xf_lmr.6 Deviation implausible},$FFBD,1,93,YES_NO,3,$0040,K; /UMP,%UR_RAM1,LLRAUS,{D:FLAGBM.0 Unterdrueckung ZWD-ansteuerung},$0024,1,93,YES_NO,2,$0001,K; /UMP,%UR_RAM1,LLTL,{O:XFLAG0.3 LL=1->0 -uebergang ist erkannt (DKFKTmodul)},$F879,1,93,YES_NO,3,$0008,K; /UMP,%UR_RAM1,LLTLKHALT,{O:XFLAG0.4 erster durchlauf bei LLTL=1 (TLEV-modul)},$F879,1,93,YES_NO,3,$0010,K; /UMP,%UR_RAM1,LL_TL,{O:xflag2.2 special LL> TL-over transition (UE_LLTL)},$F87B,1,93,YES_NO,3,$0004,K; /UMP,%UR_RAM1,LMMERR,{D:FLAG5.7 Indikator fuer HFM-Fehler},$0029,1,93,YES_NO,2,$0080,K; /UMP,%UR_RAM1,LOAD,{D:FLAG1.4 Indikator fuer Syncro (Korrekturfaktor wird umgel},$0025,1,93,YES_NO,2,$0010,K; /UMP,%UR_RAM1,LRARUN,{O:xalrst.6 LRA aktiv},$F80A,1,93,YES_NO,3,$0040,K; /UMP,%UR_RAM1,LRPM,{D:FLAG3.7 Indikator fuer Abwuergeerkennung},$0027,1,93,YES_NO,2,$0080,K; /UMP,%UR_RAM1,MDUSYN,{D:FLAG5.3 Flag fuer Unterbrechung der MDU durch Syncro},$0029,1,93,YES_NO,2,$0008,K; /UMP,%UR_RAM1,MF_ERR,{D:FLAG02.1 syncro (bmchk) erkennt 'luecke verloren'},$0023,1,93,YES_NO,2,$0002,K; /UMP,%UR_RAM1,MIL,{D:FLAG2.4 Fehlerlampenbuffer [ 0 --> activ ]},$0026,1,93,YES_NO,2,$0010,K; /UMP,%UR_RAM1,MIL_P_B,{O:xflgmfb.1 port-buffer},$F8BE,1,93,YES_NO,3,$0002,K; /UMP,%UR_RAM1,MIL_P_T,{O:xflgmfb.0 mirror port for software testing},$F8BE,1,93,YES_NO,3,$0001,K; /UMP,%UR_RAM1,MINUS_HA,{O:x_fbgfha.6 Integratorsteigung negativ},$F8CA,1,93,YES_NO,3,$0040,K; /UMP,%UR_RAM1,NIXTES,{D:KRFLG1.0 Anforderung Nulltest fuer KR-messfenster},$002C,1,93,YES_NO,2,$0001,K; /UMP,%UR_RAM1,NOBSF,{O:xf_ovb.5 Drehzahlbedingung (N > NOBS) erfüllt},$FFBE,1,93,YES_NO,3,$0020,K; /UMP,%UR_RAM1,NOSENS,{D:KRFLG1.4 KR: Nulltest auswerten},$002C,1,93,YES_NO,2,$0010,K; /UMP,%UR_RAM1,NOTEV,{O:xfr_te.1 TE gesperrt},$F848,1,93,YES_NO,3,$0002,K; /UMP,%UR_RAM1,NO_FEHLER,{O:xdsls2.2 kein Fehler erkannt, aussagefähig bei F_P2P = 1},$FAB4,1,93,YES_NO,3,$0004,K; /UMP,%UR_RAM1,NO_TI,{D:FLAG1.1 injection locked},$0025,1,93,YES_NO,2,$0002,K; /UMP,%UR_RAM1,NULEIN,{D:KRFLG1.2 KR: Nulltest einlesen},$002C,1,93,YES_NO,2,$0004,K; /UMP,%UR_RAM1,NULMEM,{D:KRFLG1.3 KR: Nulltest Memoryflag},$002C,1,93,YES_NO,2,$0008,K; /UMP,%UR_RAM1,NULVOR,{D:KRFLG1.1 KR: Ports für Nulltest vorwählen},$002C,1,93,YES_NO,2,$0002,K; /UMP,%UR_RAM1,N_STOP,{O:xf_lfr.1 Integratorstop 'negativ'},$F836,1,93,YES_NO,3,$0002,K; /UMP,%UR_RAM1,N_SWO,{D:FLAGBM.6 nmot > #nswo (idata) (z.B fuer UK-funktion)},$0024,1,93,YES_NO,2,$0040,K; /UMP,%UR_RAM1,OBLDYNF,{O:xf_ovb.3 dWDK-Schwelle ueberschritten},$FFBE,1,93,YES_NO,3,$0008,K; /UMP,%UR_RAM1,OBSZF,{O:xf_ovb.4 Sperrzeit aktiv},$FFBE,1,93,YES_NO,3,$0010,K; /UMP,%UR_RAM1,OVBO_B,{O:xf_ovb.0 Overboost-Bereitschaft},$FFBE,1,93,YES_NO,3,$0001,K; /UMP,%UR_RAM1,OVBO_E,{O:xf_ovb.2 Overboost-Abregelung},$FFBE,1,93,YES_NO,3,$0004,K; /UMP,%UR_RAM1,OVBO_S,{O:xf_ovb.1 Overboost-Abarbeitung},$FFBE,1,93,YES_NO,3,$0002,K; /UMP,%UR_RAM1,PH_OLD,{D:FLAG1.7 nockenwellenpegel bei status 'luecke_gefunden'},$0025,1,93,YES_NO,2,$0080,K; /UMP,%UR_RAM1,PMSICH,{O:xf_lmr.5 P_IST bigger maximum value},$FFBD,1,93,YES_NO,3,$0020,K; /UMP,%UR_RAM1,POLAR,{D:FLAG5.4 Vorzeichenflag fuer Reglerroutinen},$0029,1,93,YES_NO,2,$0010,K; /UMP,%UR_RAM1,POLARI,{O:xf_lmr.2 Negative deviation},$FFBD,1,93,YES_NO,3,$0004,K; /UMP,%UR_RAM1,POLARI_P,{O:xf_ovb.6 Regeldifferenz für P-Anteil negativ},$FFBE,1,93,YES_NO,3,$0040,K; /UMP,%UR_RAM1,PUMP_FG,{D:FLAG01.4 status ekp-ansteuer-freigabe: 1:=ansteuerung},$0022,1,93,YES_NO,2,$0010,K; /UMP,%UR_RAM1,P_STOP,{O:xf_lfr.0 Integratorstop 'positiv'},$F836,1,93,YES_NO,3,$0001,K; /UMP,%UR_RAM1,RASTERINI,{D:KRFLG2.4 Indikator Initialisierung Zeitraster},$002D,1,93,YES_NO,2,$0010,K; /UMP,%UR_RAM1,RE_DSLS_IN,{O:xdsls1.1 SW-bit (Diagnosis is canceled-> new initialization},$FAB3,1,93,YES_NO,3,$0002,K; /UMP,%UR_RAM1,RUVSRE,{D:RUVSR.0 zdg 1 - 5 1 := opened, 0 := closed},$0021,1,93,YES_NO,2,$0001,K; /UMP,%UR_RAM1,RZPH0G,{O:xdgrz.0 stimulus phase 0 (targeted stimulation)},$F87D,1,93,YES_NO,3,$0001,K; /UMP,%UR_RAM1,RZPH1G,{O:xdgrz.1 stimulus phase 1 (targeted stimulation)},$F87D,1,93,YES_NO,3,$0002,K; /UMP,%UR_RAM1,RZPHIL,{O:xdgrz.2 stimulus phase 'idle line'},$F87D,1,93,YES_NO,3,$0004,K; /UMP,%UR_RAM1,SA_REQ,{D:FLAG3.3 Demand boost cutting off},$0027,1,93,YES_NO,2,$0008,K; /UMP,%UR_RAM1,SGNLRAKT,{D:FLAG01.7 like fsn_lr but also determined by dsls},$0022,1,93,YES_NO,2,$0080,K; /UMP,%UR_RAM1,SGNLRH,{O:xsthk.7 Zweipunktsignal der Lambdasonde h.K.},$FBBE,1,93,YES_NO,3,$0080,K; /UMP,%UR_RAM1,SIFRKR,{D:KRFLG1.7Safety adjustment for errors in KR},$002C,1,93,YES_NO,2,$0080,K; /UMP,%UR_RAM1,SIISTF,{O:xdkrif.5 Integratorstartwert Fehler},$FA96,1,93,YES_NO,3,$0020,K; /UMP,%UR_RAM1,SINULF,{O:xdkrif.4 Nulltest Fehler},$FA96,1,93,YES_NO,3,$0010,K; /UMP,%UR_RAM1,SISEN1,{O:xdkrif.2 Sensor 1 Fehler},$FA96,1,93,YES_NO,3,$0004,K; /UMP,%UR_RAM1,SISEN2,{O:xdkrif.3 Sensor 2 Fehler},$FA96,1,93,YES_NO,3,$0008,K; /UMP,%UR_RAM1,SISSVF,{O:xdkrif.6 Sicherheitsverstellung},$FA96,1,93,YES_NO,3,$0040,K; /UMP,%UR_RAM1,ST,{D:FLAG4.1 start-status von ST_VORL im syncro uebernommen (a},$0028,1,93,YES_NO,2,$0002,K; /UMP,%UR_RAM1,STBRRED,{D:KRFLG2.6 KR: reduzierte Stufenbreite aktiv},$002D,1,93,YES_NO,2,$0040,K; /UMP,%UR_RAM1,STOP_P,{O:xf_ovb.7 P-Anteil stoppen bei Getriebeeingriff},$FFBE,1,93,YES_NO,3,$0080,K; /UMP,%UR_RAM1,ST_MEM,{O:xf_wdk.2 last state of the start flag},$F921,1,93,YES_NO,3,$0004,K; /UMP,%UR_RAM1,ST_VORL,{D:FLAG4.6 start status recognized v. STATUSmodul},$0028,1,93,YES_NO,2,$0040,K; /UMP,%UR_RAM1,S_AC,{D:KRFLG2.3 AC_bereitschaft ist aktiv},$002D,1,93,YES_NO,2,$0008,K; /UMP,%UR_RAM1,S_FS,{D:DIS_TI.6 DRIVE ist aktiv},$002B,1,93,YES_NO,2,$0040,K; /UMP,%UR_RAM1,S_KO,{D:PORTE1.7 N2PT (KOS56) : switch bit, AC compressor active},$0020,1,93,YES_NO,2,$0080,K; /UMP,%UR_RAM1,S_KO_FF,{O:x_flagkl1.0 nur N2PT (620) : S_KO-FlipFlop},$F871,1,93,YES_NO,3,$0001,K; /UMP,%UR_RAM1,TH_DDST,{O:xfddst.2 healing timer DDST active |b_true|},$FDDA,1,93,YES_NO,3,$0004,K; /UMP,%UR_RAM1,TIME,{D:FLAG1.5 Timestamp for sampling},$0025,1,93,YES_NO,2,$0020,K; /UMP,%UR_RAM1,TIME2,{D:FLAG1.6 grid step-down processing time 12 -> 24ms},$0025,1,93,YES_NO,2,$0040,K; /UMP,%UR_RAM1,TIWFS,{D:PORTE1.6 Ti-Shutdown due to immobilizer},$0020,1,93,YES_NO,2,$0040,K; /UMP,%UR_RAM1,TI_AB,{D:FLAG6.7 ti-shutdown as over charge protection},$002A,1,93,YES_NO,2,$0080,K; /UMP,%UR_RAM1,TN_DDST,{O:xfddst.0 Min-Timer DDST active |b_true|},$FDDA,1,93,YES_NO,3,$0001,K; /UMP,%UR_RAM1,TS,{D:DIS_TI.7 (undistributed) ignition sum signal 1:=offen},$002B,1,93,YES_NO,2,$0080,K; /UMP,%UR_RAM1,TS_B,{D:FLAGBM.5 final state bit: 1:= open},$0024,1,93,YES_NO,2,$0020,K; /UMP,%UR_RAM1,TTL_LR,{O:xf_lr.5 load rejection timer active},$F820,1,93,YES_NO,3,$0020,K; /UMP,%UR_RAM1,TUELLLOCK,{O:xflag2.3 tulle count locked.},$F87B,1,93,YES_NO,3,$0008,K; /UMP,%UR_RAM1,TUELLSTART,{O:xflag2.1 status 'TULLE started'},$F87B,1,93,YES_NO,3,$0002,K; /UMP,%UR_RAM1,TX_DDST,{O:xfddst.1 Max-Timer DDST active |b_true|},$FDDA,1,93,YES_NO,3,$0002,K; /UMP,%UR_RAM1,T_BHUBV,{O:xe_lsvk.6 Test runs: limited voltage swing},$F94D,1,93,YES_NO,3,$0040,K; /UMP,%UR_RAM1,T_BRLSH,{O:xf_lshk.6 Test runs: probe cold},$F960,1,93,YES_NO,3,$0040,K; /UMP,%UR_RAM1,T_BRLSV,{O:xf_lsvk.6 Test runs: probe cold},$F94C,1,93,YES_NO,3,$0040,K; /UMP,%UR_RAM1,T_DV_FLRR,{O:xdvflag.5 Instantaneous trigger for error entry},$FAE1,1,93,YES_NO,3,$0020,K; /UMP,%UR_RAM1,T_DV_FLRS,{O:xdvflag.4 Instantaneous trigger for error entry},$FAE1,1,93,YES_NO,3,$0010,K; /UMP,%UR_RAM1,T_KSAH,{O:xf_lshk.2 Test runs: Wire circuit probe},$F960,1,93,YES_NO,3,$0004,K; /UMP,%UR_RAM1,T_KSAV,{O:xf_lsvk.2 Test runs: Wire circuit probe},$F94C,1,93,YES_NO,3,$0004,K; /UMP,%UR_RAM1,T_KSMH,{O:xf_lshk.4 Test runs: Short circuit probe-DG},$F960,1,93,YES_NO,3,$0010,K; /UMP,%UR_RAM1,T_KSMV,{O:xf_lsvk.4 Test runs: Short circuit probe-DG},$F94C,1,93,YES_NO,3,$0010,K; /UMP,%UR_RAM1,T_KSUBH,{O:xf_lshk.3 Test runs: Short circuit-UB probe},$F960,1,93,YES_NO,3,$0008,K; /UMP,%UR_RAM1,T_KSUBV,{O:xf_lsvk.3 Test runs: Short circuit-UB probe},$F94C,1,93,YES_NO,3,$0008,K; /UMP,%UR_RAM1,T_LSAF,{O:xlsvk.2 Test runs: S.v.K. outside window},$F94E,1,93,YES_NO,3,$0004,K; /UMP,%UR_RAM1,T_LSPVS,{O:xf_lsvk.7 Test runs: Detect potential offset},$F94C,1,93,YES_NO,3,$0080,K; /UMP,%UR_RAM1,T_NOPVS,{O:xe_lsvk.7 Test runs: Healing potential offset},$F94D,1,93,YES_NO,3,$0080,K; /UMP,%UR_RAM1,T_SBBHK,{O:xf_lshk.5 Test runs: probe ready},$F960,1,93,YES_NO,3,$0020,K; /UMP,%UR_RAM1,T_SBBVK,{O:xf_lsvk.5 Test runs: probe ready},$F94C,1,93,YES_NO,3,$0020,K; /UMP,%UR_RAM1,T_TNSTDN,{O:xlsvk.5 time window test potential offset},$F94E,1,93,YES_NO,3,$0020,K; /UMP,%UR_RAM1,UEFAUSGE,{O:XFLAG1.1 transition function triggered},$F87A,1,93,YES_NO,3,$0002,K; /UMP,%UR_RAM1,UEFSCH,{O:XFLAG1.2 transition function strong},$F87A,1,93,YES_NO,3,$0004,K; /UMP,%UR_RAM1,UELLTLALT,{O:XFLAG0.6 transition LL -> TL was recognized},$F879,1,93,YES_NO,3,$0040,K; /UMP,%UR_RAM1,VKVO,{O:XFLAG0.5 v > KVO once detected (TACH module)},$F879,1,93,YES_NO,3,$0020,K; /UMP,%UR_RAM1,VS20ID,{D:FLAG5.1 VS20 Segment-synchronous output},$0029,1,93,YES_NO,2,$0002,K; /UMP,%UR_RAM1,VS20SS,{D:KRFLG1.5 segment-synchronous output VS20},$002C,1,93,YES_NO,2,$0020,K; /UMP,%UR_RAM1,VS20_8,{D:FLAG5.0 VS20 8-Bytes per Block},$0029,1,93,YES_NO,2,$0001,K; /UMP,%UR_RAM1,VVL,{O:x_flagkl1.2 set in the MAIN after recognition VL},$F871,1,93,YES_NO,3,$0004,K; /UMP,%UR_RAM1,VZ_TRA,{D:FLAG6.1 sign of the combined add. correction value},$002A,1,93,YES_NO,2,$0002,K; /UMP,%UR_RAM1,WE_LL,{O:xflag7.0 Indicator of boost hysteresis DNSLL},$F846,1,93,YES_NO,3,$0001,K; /UMP,%UR_RAM1,WE_REQ,{D:FLAG3.1 reinstate requirement},$0027,1,93,YES_NO,2,$0002,K; /UMP,%UR_RAM1,WE_TI,{D:FLAG3.2 Resumption 'injection'},$0027,1,93,YES_NO,2,$0004,K; /UMP,%UR_RAM1,WFSINI,{O:xf_wfs.5 WFS initialization is complete},$FAE3,1,93,YES_NO,3,$0020,K; /UMP,%UR_RAM1,WFS_SPERR,{O:xf_wfs.3 block injection},$FAE3,1,93,YES_NO,3,$0008,K; /UMP,%UR_RAM1,ZDGVERB,{D:FLAGBM.4 phase change not yet recognized.},$0024,1,93,YES_NO,2,$0010,K; /UMP,%UR_RAM1,ZDG_R2,{O:xflag2.0 togglebit for 2*ZDG_R-grid},$F87B,1,93,YES_NO,3,$0001,K; /UMP,%UR_RAM1,ZEILAU,{O:XFLAG1.4 DDK-bildung gestartet},$F87A,1,93,YES_NO,3,$0010,K; /UMP,%UR_RAM1,ZWB1,{D:FLAG2.0 change limitation ZWB1},$0026,1,93,YES_NO,2,$0001,K; /UMP,%UR_RAM1,ZWB2,{D:FLAG2.1 change limitation ZWB2},$0026,1,93,YES_NO,2,$0002,K; /UMP,%UR_RAM1,ZWB3,{D:FLAG2.2 change limitation ZWB3},$0026,1,93,YES_NO,2,$0004,K; /UMP,%UR_RAM1,ZWB4,{D:FLAG2.3 change limitation ZWB4},$0026,1,93,YES_NO,2,$0008,K; /UMP,%UR_RAM1,ZWB6,{D:FLAG2.5 change limitation ZWB6},$0026,1,93,YES_NO,2,$0020,K; /UMP,%UR_RAM1,ZWB7,{D:FLAG2.6 change limitation for LL->TL-transition-},$0026,1,93,YES_NO,2,$0040,K; /UMP,%UR_RAM1,ZWDERROR,{D:FLAG2.7 ZWD/NC / NO error CJ400-diagnose},$0026,1,93,YES_NO,2,$0080,K; /UMP,%UR_RAM1,Z_AAV,{O:xzflg5.3 cycle Valve active carbon filter (Fkt)},$F985,1,93,YES_NO,3,$0008,K; /UMP,%UR_RAM1,Z_AAVE,{O:xzflg5.4 cycle Valve active carbon filter (Endst.)},$F985,1,93,YES_NO,3,$0010,K; /UMP,%UR_RAM1,Z_AGRF,{O:xzflg4.7 cycle monitoring EGR-FLOW},$F984,1,93,YES_NO,3,$0080,K; /UMP,%UR_RAM1,Z_ASE,{O:xzflg2.5 cycle Aussetzererk., Summe, emission-relevant},$F982,1,93,YES_NO,3,$0020,K; /UMP,%UR_RAM1,Z_ASE1,{O:xzflg2.6 cycle Misfire detection Cyl.1, emission-relevant},$F982,1,93,YES_NO,3,$0040,K; /UMP,%UR_RAM1,Z_ASE2,{O:xzflg2.7 cycle Misfire detection Cyl.2, emission-relevant},$F982,1,93,YES_NO,3,$0080,K; /UMP,%UR_RAM1,Z_ASE3,{O:xzflg3.0 cycle Misfire detection Cyl.3, emission-relevant},$F983,1,93,YES_NO,3,$0001,K; /UMP,%UR_RAM1,Z_ASE4,{O:xzflg3.1 cycle Misfire detection Cyl.4, emission-relevant},$F983,1,93,YES_NO,3,$0002,K; /UMP,%UR_RAM1,Z_ASE5,{O:xzflg3.2 cycle Misfire detection Cyl.5, emission-relevant},$F983,1,93,YES_NO,3,$0004,K; /UMP,%UR_RAM1,Z_ASK,{O:xzflg3.3 cycle Misfire detection, multiple, catalyst-damaging},$F983,1,93,YES_NO,3,$0008,K; /UMP,%UR_RAM1,Z_ASK1,{O:xzflg3.4 cycle Misfire detection Cyl.1, catayst-damaging},$F983,1,93,YES_NO,3,$0010,K; /UMP,%UR_RAM1,Z_ASK2,{O:xzflg3.5 cycle Misfire detection Cyl.2, catayst-damaging},$F983,1,93,YES_NO,3,$0020,K; /UMP,%UR_RAM1,Z_ASK3,{O:xzflg3.6 cycle Misfire detection Cyl.3, catayst-damaging},$F983,1,93,YES_NO,3,$0040,K; /UMP,%UR_RAM1,Z_ASK4,{O:xzflg3.7 cycle Misfire detection Cyl.4, catayst-damaging},$F983,1,93,YES_NO,3,$0080,K; /UMP,%UR_RAM1,Z_ASK5,{O:xzflg4.0 cycle Misfire detection Cyl.5, catayst-damaging},$F984,1,93,YES_NO,3,$0001,K; /UMP,%UR_RAM1,Z_BAA,{O:xzflg9.6 cycle Bedarfsadaption am Anschlag},$F989,1,93,YES_NO,3,$0040,K; /UMP,%UR_RAM1,Z_BM,{O:xzflg6.3 cycle Bezugsmarkengeber},$F986,1,93,YES_NO,3,$0008,K; /UMP,%UR_RAM1,Z_CGE,{O:xzflg10.2 cycle CAN-Interface, Timeout EGS},$F98A,1,93,YES_NO,3,$0004,K; /UMP,%UR_RAM1,Z_CIF,{O:xzflg9.5 cycle CAN interface, internal error},$F989,1,93,YES_NO,3,$0020,K; /UMP,%UR_RAM1,Z_DF,{O:xzflg11.1 cycle pressure sensor},$F98B,1,93,YES_NO,3,$0002,K; /UMP,%UR_RAM1,Z_DK,{O:xzflg6.6 cycle DK - Potentiometer},$F986,1,93,YES_NO,3,$0040,K; /UMP,%UR_RAM1,Z_DKAT,{O:xflgkat.4 Katko result is available (Ready)},$F9CA,1,93,YES_NO,3,$0010,K; /UMP,%UR_RAM1,Z_DPL,{O:xzflg6.1 cycle constant plus},$F986,1,93,YES_NO,3,$0002,K; /UMP,%UR_RAM1,Z_DST,{O:xzflg5.6 cycle tank pressure sensor},$Z,1,93,YES_NO,3,$0040,K; /UMP,%UR_RAM1,Z_DTV,{O:xzflg2.2 cycle LR-adaptation ti-additive},$F982,1,93,YES_NO,3,$0004,K; /UMP,%UR_RAM1,Z_EGA,{O:xzflg8.4 cycle unknown error output stages (Group A)},$F988,1,93,YES_NO,3,$0010,K; /UMP,%UR_RAM1,Z_EGB,{O:xzflg8.5 cycle unknown error output stages (Group B)},$F988,1,93,YES_NO,3,$0020,K; /UMP,%UR_RAM1,Z_EGC,{O:xzflg8.6 cycle unknown error output stages (Group C)},$F988,1,93,YES_NO,3,$0040,K; /UMP,%UR_RAM1,Z_EGD,{O:xzflg8.7 cycle unknown error output stages (Group D)},$F988,1,93,YES_NO,3,$0080,K; /UMP,%UR_RAM1,Z_EGE,{O:xzflg9.0 cycle unknown error output stages (Group E)},$F989,1,93,YES_NO,3,$0001,K; /UMP,%UR_RAM1,Z_EGF,{O:xzflg9.1 cycle unknown error output stages (Group F)},$F989,1,93,YES_NO,3,$0002,K; /UMP,%UR_RAM1,Z_EV1,{O:xzflg7.3 cycle EV of Cyl. 1},$F987,1,93,YES_NO,3,$0008,K; /UMP,%UR_RAM1,Z_EV2,{O:xzflg7.4 cycle EV of Cyl. 2},$F987,1,93,YES_NO,3,$0010,K; /UMP,%UR_RAM1,Z_EV3,{O:xzflg7.5 cycle EV of Cyl. 3},$F987,1,93,YES_NO,3,$0020,K; /UMP,%UR_RAM1,Z_EV4,{O:xzflg7.6 cycle EV of Cyl. 4},$F987,1,93,YES_NO,3,$0040,K; /UMP,%UR_RAM1,Z_EV5,{O:xzflg7.7 cycle EV of Cyl. 5},$F987,1,93,YES_NO,3,$0080,K; /UMP,%UR_RAM1,Z_FRA,{O:xzflg2.0 cycle LR-adaptation multiplicative},$F982,1,93,YES_NO,3,$0001,K; /UMP,%UR_RAM1,Z_HSH,{O:xzflg1.4 cycle Lambda probe heating behind catalytic converter},$F981,1,93,YES_NO,3,$0010,K; /UMP,%UR_RAM1,Z_HSV,{O:xzflg1.3 cycle Oxygen sensor heating before catalytic converter},$F981,1,93,YES_NO,3,$0008,K; /UMP,%UR_RAM1,Z_KAT,{O:xzflg2.4 cycle Catalyst Conversion},$F982,1,93,YES_NO,3,$0010,K; /UMP,%UR_RAM1,Z_KRT,{O:xzflg9.4 cycle Knock Control Test Pulse},$F989,1,93,YES_NO,3,$0010,K; /UMP,%UR_RAM1,Z_KS1,{O:xzflg9.2 cycle knock sensor 1},$F989,1,93,YES_NO,3,$0004,K; /UMP,%UR_RAM1,Z_KS2,{O:xzflg9.3 cycle knock sensor 2},$F989,1,93,YES_NO,3,$0008,K; /UMP,%UR_RAM1,Z_LASH,{O:xzflg1.7 cycle Lambda probe aging behind Kat},$F981,1,93,YES_NO,3,$0080,K; /UMP,%UR_RAM1,Z_LATP,{O:xzflg1.5 `},$F981,1,93,YES_NO,3,$0020,K; /UMP,%UR_RAM1,Z_LATV,{O:xzflg1.6 cycle Lambda probe aging TV},$F981,1,93,YES_NO,3,$0040,K; /UMP,%UR_RAM1,Z_LDAB,{O:xzflg9.7 cycle Boost pressure reduction},$F989,1,93,YES_NO,3,$0080,K; /UMP,%UR_RAM1,Z_LDE,{O:xzflg8.3 cycle Boost pressure control valve (Endstufe)},$F988,1,93,YES_NO,3,$0008,K; /UMP,%UR_RAM1,Z_LDO,{O:xzflg10.0 cycle boost pressure; exceeded upper value},$F98A,1,93,YES_NO,3,$0001,K; /UMP,%UR_RAM1,Z_LDRA,{O:xzflg10.1 cycle Charge pressure deviation},$F98A,1,93,YES_NO,3,$0002,K; /UMP,%UR_RAM1,Z_LE,{O:xzflg11.2 cycle load detection},$F98B,1,93,YES_NO,3,$0004,K; /UMP,%UR_RAM1,Z_LM,{O:xzflg6.5 cycle LMM/HLM/HFM},$F986,1,93,YES_NO,3,$0020,K; /UMP,%UR_RAM1,Z_LSH,{O:xzflg1.2 cycle Lambda probe behind catalytic converter},$F981,1,93,YES_NO,3,$0004,K; /UMP,%UR_RAM1,Z_LSV,{O:xzflg1.1 cycle Lambda probe before cat},$F981,1,93,YES_NO,3,$0002,K; /UMP,%UR_RAM1,Z_LUEA,{O:xzflg10.6 cycle fan output stage A},$F98A,1,93,YES_NO,3,$0040,K; /UMP,%UR_RAM1,Z_MFA,{O:xzflg2.3 cycle MIL-externally determined},$F982,1,93,YES_NO,3,$0008,K; /UMP,%UR_RAM1,Z_MFB,{O:xzflg8.0 cycle MIL-Request - management},$F988,1,93,YES_NO,3,$0001,K; /UMP,%UR_RAM1,Z_N,{O:xzflg6.2 cycle Speed signal generator},$F986,1,93,YES_NO,3,$0004,K; /UMP,%UR_RAM1,Z_NO,{O:xzflg1.0 cycle special case},$F981,1,93,YES_NO,3,$0001,K; /UMP,%UR_RAM1,Z_PAC,{O:xzflg7.2 cycle Druck in Klimasystem},$F987,1,93,YES_NO,3,$0004,K; /UMP,%UR_RAM1,Z_PH,{O:xzflg6.4 cycle Phasensensor},$F986,1,93,YES_NO,3,$0010,K; /UMP,%UR_RAM1,Z_SGROM,{O:xzflg5.7 cycle Steuergerät defekt (ROM)},$F985,1,93,YES_NO,3,$0080,K; /UMP,%UR_RAM1,Z_SLP,{O:xzflg4.3 cycle Secondary Air Pump},$F984,1,93,YES_NO,3,$0008,K; /UMP,%UR_RAM1,Z_SLPE,{O:xzflg4.5 cycle Secondary Air Pump (Endstufe)},$F984,1,93,YES_NO,3,$0020,K; /UMP,%UR_RAM1,Z_SLS,{O:xzflg4.2 cycle Secondary Air System},$F984,1,93,YES_NO,3,$0004,K; /UMP,%UR_RAM1,Z_SLV,{O:xzflg4.4 cycle Secondary Air Valve},$F984,1,93,YES_NO,3,$0010,K; /UMP,%UR_RAM1,Z_SLVE,{O:xzflg4.6 cycle Secondary Air Valve (Endstufe)},$F984,1,93,YES_NO,3,$0040,K; /UMP,%UR_RAM1,Z_SWE,{O:xzflg4.1 cycle Beschleunigungssensor Schlechtwegeerk.},$F984,1,93,YES_NO,3,$0002,K; /UMP,%UR_RAM1,Z_TA,{O:xzflg10.7 cycle TANS},$F98A,1,93,YES_NO,3,$0080,K; /UMP,%UR_RAM1,Z_TES,{O:xzflg5.2 cycle tank venting system},$F985,1,93,YES_NO,3,$0004,K; /UMP,%UR_RAM1,Z_TESF,{O:xzflg5.0 cycle tank venting system fine leak},$F985,1,93,YES_NO,3,$0001,K; /UMP,%UR_RAM1,Z_TESG,{O:xzflg5.1 cycle tank venting system gross leak},$F985,1,93,YES_NO,3,$0002,K; /UMP,%UR_RAM1,Z_TEVE,{O:xzflg5.5 cycle tank venting valve Endstufe},$F985,1,93,YES_NO,3,$0020,K; /UMP,%UR_RAM1,Z_TM,{O:xzflg7.0 cycle TMOT},$F987,1,93,YES_NO,3,$0001,K; /UMP,%UR_RAM1,Z_TMUM,{O:xzflg10.3 cycle TMOT-changeover},$F98A,1,93,YES_NO,3,$0008,K; /UMP,%UR_RAM1,Z_TRA,{O:xzflg2.1 cycle LR-adaptation QL-additiv},$F982,1,93,YES_NO,3,$0002,K; /UMP,%UR_RAM1,Z_TX,{O:xzflg7.1 cycle Temperature EBOX},$F987,1,93,YES_NO,3,$0002,K; /UMP,%UR_RAM1,Z_TX1S,{O:xzflg10.4 cycle Temperature EBOX 1. Schwelle},$F98A,1,93,YES_NO,3,$0010,K; /UMP,%UR_RAM1,Z_TX2S,{O:xzflg10.5 cycle Temperature EBOX 2. Schwelle},$F98A,1,93,YES_NO,3,$0020,K; /UMP,%UR_RAM1,Z_UB,{O:xzflg6.0 cycle UB},$F986,1,93,YES_NO,3,$0001,K; /UMP,%UR_RAM1,Z_VFZ,{O:xzflg6.7 cycle Vehicle speed},$F986,1,93,YES_NO,3,$0080,K; /UMP,%UR_RAM1,Z_WFS,{O:xzflg11.0 cycle immobilizer},$F98B,1,93,YES_NO,3,$0001,K; /UMP,%UR_RAM1,Z_ZO,{O:xzflg8.1 cycle Opened idle adjuster},$F988,1,93,YES_NO,3,$0002,K; /UMP,%UR_RAM1,Z_ZS,{O:xzflg8.2 cycle Close idle adjuster},$F988,1,93,YES_NO,3,$0004,K; /FKT,%SYABK,{Symbols and Abbreviations} 0 0; /FKT,%MOTOR,{motor data} 0 0; /FKT,%HW,{Hardware} 2,IDENTIFY1,IDENTIFY2 0; /FKT,%SW,{Software} 0 0; /FKT,%SWBEM,{Software: Comments} 0 0; /FKT,%SERA,{series changes} 0 0; /FKT,%APPLDI,{Application device information} 0 0; /FKT,%STEGO,{connector geometry} 0 0; /FKT,%STECK,{Pin Assignment} 0 0; /FKT,%EINGA,{inputs} 0 0; /FKT,%AUSGA,{output signals} 0 0; /FKT,%AUS,{Extending the output signals} 0 0; /FKT,%INI,{initialization} 0 55,Z_AAV,Z_AAVE,Z_AGRF,Z_ASE,Z_ASE1,Z_ASE2,Z_ASE3,Z_ASE4,Z_ASE5,Z_BAA,Z_CGE,Z_CIF,Z_DF,Z_DST,Z_DTV,Z_EGD,Z_EGE Z_EV1,Z_EV2,Z_EV3,Z_EV4,Z_EV5,Z_FRA,Z_HSH,Z_HSV,Z_KAT,Z_LASH,Z_LATP,Z_LATV,Z_LDE,Z_LE,Z_LM,Z_LSH,Z_LSV,Z_LUEA,Z_MFB Z_PAC,Z_SGROM,Z_SLP,Z_SLPE,Z_SLS,Z_SLV,Z_SLVE,Z_SWE,Z_TA,Z_TES,Z_TESF,Z_TESG,Z_TEVE,Z_TM,Z_TMUM,Z_TRA,Z_ZO,Z_ZS Z_ZYL; /FKT,%CAN,{CAN-signal List} 10,CDCCGE,CDCCIF,CDTCGE,CDTCIF,FLCCGE,FLCCIF,HLCCGE,HLCCIF,LDCGE,LDCIF 16,B_LDBAG,B_LL,E_CGE,E_CIF,E_DK,E_LM,E_N,E_TMUM,E_VFZ,S_FS,S_KO,TMOT,VMESS,X_GSTBIN,Z_CGE,Z_CIF; /FKT,%BM,{Bezugsmarke} 0 0; /FKT,%SWCOD,{Software coding} 2,CVS20,DSCONF 0; /FKT,%BBPR,{Operating conditions: EKP relay control} 1,NEKP 3,B_ST,N,XTPA; /FKT,%SST,{supporting points} 33,DTLUEGR,DTLWGR,GANG_NR,GUDAGRSP,HOEHENGR,HOEHENGR8S,NMOTGR1,NMOTGR28S,NMOTGR38S,NMOTGR8S,NMOTGR_LMR,QLLSGR STADAPGR,STNLMR,STSTNR,TANSGR,TANSGR8S,TIVERTEIL,TLGR1,TLGR2,TLGR8S,TMOTGR,TMOTGR2,TMOTGR8S,TWH_SST,UBGR,WDKBLGR WDKBLGR8S,WDKGR_LMR,WDKVGGR,ZDGGR8S,ZDGGRSP1,ZDGVERTEIL 0; /FKT,%WFS,{immobilizer} 14,CDKWFS,CDTWFS,FLCWFS,HLCWFS,LDWFS,TDWFSVN,TWFS1PU,TWFSSRX,TWFSVNN1,TWFSVNN2,VWFSMX,WFSID1,WFSID2,WFSID3 0; /FKT,%GRUFU,{Basic function - injection} 2,FKMLM,TLSTM 11,E_LM,ML,MLH,MLL,ML_H,ML_L,Q02,Q16,TL,TLROH,UHLM; /FKT,%BGTL,{A parameter tL load signal} 7,DTLFU,TLMAX,TLSTM,VZTLF,ZTLFLL,ZTLFN,ZTLFNN 12,B_LL,B_ST,B_TLFU,FDKHAB,LMMERR,TL,TLROH,TL_L,VMESS,XZTLFN,XZTLFNN,ZTLF; /FKT,%BGTLW,{Size calculation TLW - load signal} 6,KFTLWB,KFWDKV,QLLDK,ZQSOL,ZTLWNTL,ZTLWPTL 14,B_DKNLM_HA,B_LMRA,E_DK,E_LM,N,TL,TLWK,TLWKF,XP_SOLL,XQLLS,XQSOL,XWDKBL,XWDKVG,X_FDKHAH; /FKT,%BGFHA,{Calculated altitude adaptation factor size} 9,DFDKHA,DZDKHAN,DZDKHAP,FDKHAO,FDKHAU,WKWAN,WKWAUN,ZDKHA,ZDKHAS 10,B_HA,B_SA,B_ST,E_DK_HA,E_LM_HA,FDKHAB,TL,TLWKF,XFHO,XWDKBL; /FKT,%GGDF,{Master variable pressure sensor} 13,AZPLMESS,CDDF,CDTDF,DFDE,FHOMN,FHOMX,FHOPLS,FLCDF,HLCDF,LDDF,TDDF,TDDFPL,TDDFPLG 9,B_ST,E_DF,F_DDFFPL,F_DDFFPL1,XAZMESS,XFHO,XTDDFPL,XTDDFPLG,Z_DF; /FKT,%HFMKPT,{HFM-correction} 7,FKMLM,FZML,TANFK,TMZFK,ZFKML,ZFKMLK,ZFKMLM 0; /FKT,%ES,{Basic function - injection} 3,FGAT0,TEMIN,TVUB 10,HFKORR,LFKORR,TI_L,TLROH,TL_L,TRADTV,XFKORR,XFR,XFRA,XTEFKT; /FKT,%KVA,{Output: fuel consumption display} 1,KVB 2,XKVA_H,XKVA_L; /FKT,%STAT_E,{Basic function - injection} 2,FVLN,KFLF 0; /FKT,%EA,{Injection Type} 3,KFWEB,TPREL,TVUB 2,B_NSP,XPDVRL; /FKT,%EAS,{Injection Start} 3,KFWEB,MESTTE,TPREL 3,N,TI,XERSTTI; /FKT,%ESS,{Injection at start} 6,FGAT0,FHOKSTM,KSTAI,TEMIN,TLSTM,TVUB 11,FDKHAB,TI_L,XFSTB2L,XKSTA0W,XKSTA1W,XKSTA2W,XKSTAA,XSK_ST2,XTEFKT,XTIB1L,XTIB1VORH; /FKT,%ST_E,{Start - Injection} 8,FKSM,KFFWKS,KFKSB2M,NNST,NSTNM,TMK,TWKS1,TWKS2 12,B_ST,FLAG4,N,TI_L,TMOT,XF_ST,XTWH,XWSTTIMER1,XWSTTIMER2,XWSTTIMER3,XWSTTIMER4,X_WST; /FKT,%STADAP,{Starting quantity adaptation} 25,ANRZUEMX,CDTASE,CDTASK,CDTBAA,CDTFRA,CDTPH,CDTTM,CDTTRA,CDTUB,CDTZO,CDTZS,DECKSTAI,DN10BURN,INCKSTAI,KSTAI KSTAMXI,NSTAMXHA,TMSTAB,UBKST,ZBURNABR,ZBURNDEC,ZBURNSOL,ZSYNABR,ZSYNAUSW,ZUBKSTMX 19,B_KSTA,B_KSTAUE,N10,XDN10,XFLAG0,XKSTA0,XKSTA0W,XKSTA1,XKSTA1W,XKSTA2,XKSTA2W,XKSTAA,XN10ALT,XTMABSTA,XZBURN XZBURNSU,XZSYNCHRO,XZUBKST,ZUENZAE; /FKT,%NST,{afterstart} 13,FNSM,FWSTA1,FWSTA2,FWSTA3,FZANSM1,FZANSM2,KFFWNS,SFZANSM,TLSTM,TMK,TMLIM,TWNS2,TWNS3 4,B_STAA,XFKTNS,XNSACTR,XTMOTST; /FKT,%WL_E,{Warm-up - Injection} 7,FWLM1,FWLM2,FWLM3,KFWL,KFWLL,TMFWLO,TMFWLU 1,XFKTWL; /FKT,%UKSEFI,{transfer compensation for SEFI - Wall film model} 21,CUKWLL,DLUKW,DUKK,FSTAUKM,FUKNSTM,FVANST,KFABAK,KFAVAK,KFBAKL,KFBAW,KFVAKL,KFVAW,KLWF,STEUKKL,TLWNSP,TNSUUK ZBALM,ZUKK,ZUKNST,ZUKW,ZVALM 24,B_LL,B_NSP,B_ST,B_UKG,E_DK,FBAKL,FBAW,FSTAUK,FVAKL,FVANS,FVAW,N,SDTLW,SDWFK,SDWFL,TEUKG,TEUKK,TEUKL,TEUKW,TEUKWM TL,TUKNS,WF,XKSTAA; /FKT,%ZUE,{basic function - ignition} 3,KFSW,WMAX,WMIN 14,DZWDYV,DZWUEF,DZW_KR,SWOUT,XDZWK1,XDZWK2,XDZWK3,XDZWK4,XDZWK5,ZWBEG,ZWGETR,ZWNEU,ZWOUT,Z_ZYL; /FKT,%STAT_W,{basic function - ignition} 12,KFWSTMHA,KFZW,KFZWE,KLZWL,NNST,NSTNM,TMSTZW,TSTHL,WLLM,WNDN,WPDN,WSTN 3,XWLL,XWST,ZWEN; /FKT,%KHZ,{Kat-heating by retard angle} 9,DWKHLN,FWUEKHZU,KFDWKHT,KFFWZKHL,KFFWZKHT,KFWWDKHH,KHEZU,TMSKHO,TMSKHU 8,B_KH,B_LL,B_ST,B_VL,FDKHAB,XTMOTST,XWDKBL,ZWOUT; /FKT,%VHDY,{dynamic derivative} 9,DYAVS,DYVF,DYWVF,KEFLDY,KFDYWV,KRFTP3,KRVFN1,KRVFN2,TMDYVH 7,B_KH,B_SA,DYFLAG,DZWDYV,SIFRKR,TLWKF,XDYNZAE; /FKT,%ZWB,{ignition change limitation} 11,AZLLTLM,DINK1,DINK2,DINK6,DINK7,DNZB,DZUE1,DZUE2,DZUE6,DZUE7,TLZWB 16,B_LL,B_VL,DZWUEF,F_VMIN,N,TL,VMESS,XNSOL,ZWB1,ZWB2,ZWB3,ZWB4,ZWB6,ZWB7,ZWBEG,ZWNEU; /FKT,%GE,{gear engagement} 3,KFZGE,STGEN,TGEXN 4,B_ST,X_GSTBIN,X_NGST,ZWGETR; /FKT,%UE_LLTL,{Transition from idle to part load} 22,CNFUEG,DWWE,DWWEA,DZWUELL,HUELLTL,KFDWWEAC,KFDWWELL,KFDZUWE1,KFDZUWE2,KFDZUWE3,KFZUWE1,KFZUWE2,KFZUWE3,QDPUELL TLUEACN,TLUEN,TMZWE,TUEDTL,TUELLTL,VWWEMN,VWWEMX,WDKWWEA 22,B_LL,B_QAC,B_SA,B_UEFAUSGE,B_UEFSCH,DZWUEF,FDKHAB,F_HG,N,NSTAT,S_FS,S_KO,TL,TMOT,VMESS,XDZUWEZ,XWDKBL,XZUWE X_QDHPT,X_SCHAST,ZWNEU,ZWOUT; /FKT,%KUE,{Overview knock control} 7,DWKRSN,KEKAN,KRMXN,TMKR,TMKRA,WMAX,WMIN 9,DYFLAG,DZWDYV,DZW_KR,F_TMKRA,KLSCHB,SIFRKR,ZWBEG,ZWOUT,Z_ZYL; /FKT,%KE,{knock detection} 12,KEFLDY,KEKAN,KEMAN,KEMLN,KFKEF,KRFTP1,KRFTP3,KRIMX,KRVST,REFINI,RMINN,TMKR 21,DYFLAG,KLOPJN,UKLOPF,XINOFF,XKFAK1,XMESNUL,XMFANF,XMFLEN,XMOFFSTF,XOFFSET,XREFPE1,XREFPE2,XREFPE3,XREFPE4 XREFPE5,XUKLNUL,XVERST1,XVERST2,XVERST3,XVERST4,XVERST5; /FKT,%KR,{knock control} 7,KEKAN,KRFKN,KRMXN,KRVFN1,KRVFN2,TMKR,TMKRVF 9,DZW_KR,XAKFALT,XFALMAX,XFALT1,XFALT2,XFALT3,XFALT4,XFALT5,XSTUFBR; /FKT,%KRA,{Adaptation of ignition firing angle late adjustment from knock control} 11,DZWFM,KEKAN,KRAFRS,KRAL1,KRALH,KRAN1,KRANH,KRFKN,KRVFN1,KRVFN2,TMKRA 2,XFALTA,XLASDRE; /FKT,%KR_AN,{Enrichment during knocking} 6,FRANR1,FRANR2,KFANMX,KFKRANMX,PSOLKR,PSOLSP 8,B_LDR,B_LMRA,N,TL,TMOT,XFALMIT,XFK_ANR,XSPERRT; /FKT,%DKRS,{Diagnose; knock sensor (OBDII)} 17,CDCKS1,CDCKS2,CDKKS1,CDKKS2,CDTKS1,CDTKS2,DWKRSN,FLCKS1,FLCKS2,HLCKS1,HLCKS2,LDKS1,LDKS2,NDKS,TDKS,UDKS,VDKS 0; /FKT,%DKRM,{Diagnose; KR - Nulltest} 10,CDCKRT,CDKKRT,CDTKRT,DKRISNT,DWKRSN,FLCKRT,HLCKRT,LDKRT,TDKSA,TMKR 0; /FKT,%LLRUE,{Idle speed control index} 3,QMIN,ZWDAUSDK,ZWDAUSN 11,PW_H,PW_L,QVS,QVSB,XIVHI,XIVLO,XNSOL,XQADP,XQKLIMA,XQSOL,X_QDHPT; /FKT,%LLRNS,{Idle speed control target speed} 9,KFDNLLKH,KNLL,NFLX,NFSM,NLLM,NSAC,NUB,NUBS,ZNSM 12,B_KH,DRWUER,FLGINI,N10,S_AC,S_FS,UB,VKVO,XDNKH,XNFSM,XNLLM,XNSOL; /FKT,%LLRV,{Idle speed control: fan control} 30,DQFSKOM,DQLLTL,FQKON,FQKTM,FQTE,KFDQKH,KFDQKO,KFFWZKHL,KFFWZKHT,KFQKHT,KFQLL,KFQNTA,KFQSTMHA,KFWWDKHH,QACB,QFSM QFSMV,QKHLLN,QKOP,QLF,QLLHN,QSAHN,QSTN,ZQAC,ZQFSA,ZQFSE,ZQLLTL,ZQVNSM,ZQVSN,ZQVSP 17,B_ACA,B_KH,B_LL,B_QAC,B_SA,B_ST,B_TE,DRWUER,F_VMIN,QAC,QVS,S_AC,S_FS,S_KO,VKVO,XQKLIMA,ZWB7; /FKT,%LLRR,{idle speed control govenor} 13,AZVANSA,DLIN,DLIP,DLPP,DQMN,DQMNAZNS,DQMX,LISTM,NDSU,TLIM,TSTHL,WNDN,WPDN 11,B_LL,B_SA,B_ST,N10,SA_REQ,XIVHI,XIVLO,XNSOL,XQSOL,XTSTHL,ZWOUT; /FKT,%LLRI,{Idle control integrator management} 7,NDSU,NNST,NSTL,NSTNM,TFBR,ZIRS1,ZIRS2 5,B_LL,B_SA,F_VMIN,XIVHI,XNSOL; /FKT,%LLRA,{Idling control-demand adaptation} 4,DQAX,TMQA,TQAW,ZQA 20,B_ADP,B_LL,B_SA,E_DK,E_EV1,E_EV2,E_EV3,E_EV4,E_EV5,E_TM,E_UB,E_ZO,E_ZS,F_VMIN,LMMERR,TMOT,XIVHI,XIVLO,XQADP XTQACT; /FKT,%DLLRA,{Diagnose: idle control needs adaptation / offset adaptation} 9,CDCBAA,CDKBAA,CDTBAA,DQAMN,DQAMX,FLCBAA,HLCBAA,LDBAA,ZLLRAZ 3,B_ADP,E_BAA,Z_BAA; /FKT,%DLLS,{Diagnose: output stage test Idle speed control [LLS] (OBDII)} 16,CDCZO,CDCZS,CDKZO,CDKZS,FLCZO,FLCZS,HLCZO,HLCZS,LDZO,LDZS,NSADPG,NSADPGD,NWEDNG,NWEDNGD,QDBLLEA,QDBLLEH 3,B_LL,NGRAD,Q02; /FKT,%SHPOT,{Dashpot} 4,DQDPN,KFQDP,TDQDPN,ZDQDP 13,B_ST,F_HG,N2,NMOT,XDQDP,XTDQDP,XWDKBL,XZTDQDP,X_GANGBR,X_QDHPT,X_QDPT,X_SCHAST,X_WDKBLO; /FKT,%AUTOMAT,{automatic recognition} 1,KONFIG 1,F_HG; /FKT,%BBGANG,{operating range trasition} 2,DIMS,IMS 4,N,VMESS,X_GANGBR,X_SCHAST; /FKT,%SA_WE,{fuel cut off / re-insert} 27,CNFSAG,DINH4,DINK3,DINW4,DNSAH,DNSAL,DNSLL,DNWEK,DTLWE,DTSA,DZUE3,DZUE3G,DZUH4,DZUW4,FIMHU,FIMWU,KFZWE,KLZWL NGWE,NWEM,NWENG,TLS,TVSA0G,TVSAD,UWEH,UWEW,WDKHWE 19,B_LL,B_SA,B_WEH,DNSA,N,NGRAD,SACTR,SA_REQ,TL,XNSA,XNWE,XTVSAS,XWDKBL,X_QDHPT,X_SCHAST,ZWB3,ZWB4,ZWBEG,ZWNEU; /FKT,%NBDY,{dynamic speed limit} 5,DNMAX,NMAX,NMAXD,NMAXRS,TNMAX 2,B_NMAX,XTNMAX; /FKT,%V_BEGR,{speed restriction} 2,VMAX,VMAXW 4,B_VMAXW,F_VBGR,VMESS,VZ; /FKT,%KOS,{AC compressor - management} 8,AZKOAS,PACREL,TEC1N,TECN,TKOAVL,TKOAVLMN,TMLF3,WDKVLN 11,B_AC,B_ACA,B_QAC,B_UELL,DPAC_MAX,DPAC_MIN,DZWUEF,E_PAC,TMOT,XWDKBL,X_ACPRESS; /FKT,%MLS,{Motor fan control} 22,CDTEGC,CDTLUEA,CDTTX,NLF,PACLFO,PACLFU,TABGLF,TBLFO,TMLF1,TMLF2,TMLF3,TMLF4,TMLF5,TNLF1,TNLF2,TNLF3,TVLFA,TVLFAC VLF1,VLF2,VLF4,ZTFAN 15,B_ACA,DPAC_PLAUS,DZWUEF,E_LUEA,N,S_AC,TMOT,VMESS,XEBOX,XMAINFA1,XMAINFA2,XMAINFA3,XMAINFA4,XTFANM,X_ACPRESS; /FKT,%LASTS,{Load signal output tq} 0 0; /FKT,%WDK,{throttle angle} 7,DWDKLA,WDKDO,WDKDU,WDKSLN,WDKVLN,WKLLX,ZWDK 4,XWDK,XWDKBL,XWDKLM,XWDKLMN; /FKT,%DDKG,{Diagnose; plausibility check Throttle angle sensor (OBDII)} 13,CDCDK,CDKDK,CDTDK,DQDBLE,FLCDK,HLCDK,LDDK,NDBVLE,QDBLLE,TLDBVE,WDKDE,WDKDO,WDKDU 3,B_LL,B_ST,B_VL; /FKT,%LDR_LDR,{structure of the boost pressure control} 3,DPDLDRN,DPDLDRP,WDKLDRN 22,B_LDR,B_LMRA,E_DK,E_EV1,E_EV2,E_EV3,E_EV4,E_EV5,E_FRA,E_KAT,E_LDE,E_LM,SIFRKR,TVMBEG,XPCIHI,XPCILO,XPCP,XPCP_TV XP_IST,XP_SOLL,XTV_VS,XWDKBL; /FKT,%LDR_PI,{Structure of the PI - controller} 8,DPILDRN,DTVILDRN,TLDRGEN,TLDRGEPN,TVBLDRN,TVMAX,TVMIN,WDKLDRN 11,B_LDR,B_LMRA,TVMBEG,XPCIHI,XPCILO,XPCP,XPCP_TV,XP_IST,XP_SOLL,XTVM,XZ_LMRGE; /FKT,%LDIAN,{LDR I-Anteil} 2,KFP2,LDRIV 3,XPCIHI,XPCILO,XPCP; /FKT,%LDPAN,{LDR P-Anteil} 1,PLDRN 2,XPCP,XPCP_TV; /FKT,%LDR_P_STP,{Preparation of the reference variable P_SOLL} 8,CNFLDB,KFLDSAK,KFLDSHK,KFPS,PSLDMX,PSMX,TLDB,TMLD 8,B_LDB,B_NMAX,E_TM,F_HG,TMOT,TZLDB,XERG_PS,XP_SOLL; /FKT,%LDR_PISTA,{Read and process the control variable} 1,PISTBG 2,TL,XP_IST; /FKT,%LDR_TVMAU,{Processing of input value TV} 4,KFTVH,KFTVTA,KFTVVSLDR,WDKLDRN 3,B_LMRA,XTV_VS,XWDKBL; /FKT,%LDR_TVM_A,{output duty cycle} 2,TVMAX,TVMIN 5,B_LDR,B_LMRA,TVMBEG,XTVM,XTV_VS; /FKT,%LDOB,{LDR Overboost} 11,DKOVN,DNLDROVN,DYNOBC,DYNOBE,DYNOBK,DYNOBT,KFPS,KFTVVSLDR,NOBS,SCHWL2,TLDROVN 4,XOVBSZ,XP_SOLL,XTV_VS,XWDKOB; /FKT,%LDR_LDABA,{Adaptation of the setpoint boost pressure} 9,DKADN,FABMXN,FLDABN,KFPS,KFTVVSLDR,PSOLKR,PSOLSL,PSOLSP,TMKRA 10,B_LMRA,N,XFALMIT,XFALTA,XFPSAB,XP_IST,XP_SOLL,XSPERRT,XSTEIGT,XTV_VS; /FKT,%LDR_TVB,{Duty cycle changes approximate boundary} 5,DPILDRN,DTVILDRN,TVBLDRN,TVSTLDRN,WDKLDRN 5,TVMBEG,XP_IST,XP_SOLL,XTVM,XWDKBL; /FKT,%LDR_LDB,{Limit the charging pressure setpoint} 3,FLDABMTN,KFPS,VSTALL 5,B_LDB,B_LDBAG,F_HG,VMESS,X_SCHAST; /FKT,%DLDAB,{Diagnose; Plausibility test entry boost pressure reduction (OBDII)} 6,CDCLDAB,CDKLDAB,CDTLDAB,FLCLDAB,HLCLDAB,LDLDAB 3,E_LDAB,N,Z_LDAB; /FKT,%DLD,{Diagnose; plausibility check maximal LDR-control variable} 12,CDCLDO,CDKLDO,CDTLDO,DTLDLD,DTLUL,FLCLDO,HLCLDO,LDLDO,TADLDU,TDLDMX,TLULN,TULV 2,TANS,TL; /FKT,%ATM,{Exhaust gas temperature model} 11,IMLABG,IMLABGW,IMLKAT,IMLKATW,TATMML,TATMSA,TATMTP,TMATMKV,TMATMTP,ZATMAML,ZATMKML 5,B_ATMTPA,B_ATMTPK,B_ST,ML,TMOT; /FKT,%DLDRA,{Diagnose; plausibility check Charge pressure deviation} 10,CDCLDRA,CDKLDRA,CDTLDRA,DPDLDRN,DPDLDRP,FLCLDRA,HLCLDRA,LDLDRA,NDLDRA,TDLDRA 0; /FKT,%HLS,{Lambda probe heater} 5,TABGHSVO,THHAUB,THVAUB,TKATHSHO,UBHS 13,B_ATMTPA,B_HSH,B_HSHEIN,B_HSHRED,B_HSV,B_HSVEIN,B_HSVRED,B_LSAFKN,B_ST,THHASOLL,TMOT,UB,UHV; /FKT,%DHLS,{Diagnose; probe heating} 13,CDHSH,CDHSV,KHTABG,KHUB,RHSOH,RHSOV,RHSUH,RHSUV,TA500G,TVDHS,UB13V,ZHZTABG,ZHZUBF 18,B_ATMTPA,B_ATMTPK,B_HSH,B_HSHEIN,B_HSV,B_HSVEIN,E_HSH,E_HSV,UB,UBF5,UHV,UHVF,XTABGF,XTABGM,XTKATF,XTKATM,Z_HSH Z_HSV; /FKT,%DLSV,{Diagnose; Probe readiness before Kat} 31,CDCLSV,CDLSH,CDLSV,CDTLSV,FLCLSV,HLCLSV,LDLSV,TMSPV,TMSPVA,TNSTDN,TRSA,TRSE,TTBMH,TUSDU,TUSDUC,TUSKS,UBDPLS USDBO,USDBU,USDUO,USDUU,USFHK,USMAX,USMIN,USNO,USNU,USPVO,USPVR,USPVU,USREF,USREM 24,B_DSLS,B_DTES,B_HSVEIN,B_KSMH,B_KSUBH,B_LR,B_LSAFKN,B_LSPVS,B_LSVKLT,B_LSVN,B_SBBVK,B_SLS,B_ST,E_LSV,E_SLPE E_SLS,E_SLVE,E_TES,E_TEVE,E_TM,TMABS,TMOT,UB,Z_LSV; /FKT,%DLSH,{Diagnose; probes readiness for operation behind cat} 18,CDLSH,CDTLSH,FLCLSH,HLCLSH,LDLSH,TRSAH,TRSE,TTBMH,TUSDUH,TUSKS,USDUO,USDUU,USMAX,USMIN,USPVO,USPVU,USREFH,USREMH 16,B_DSLS,B_HSHEIN,B_KSMH,B_LRHK,B_LSVKLT,B_PVSH,B_SBBHK,B_SLS,B_ST,E_LSH,E_SLPE,E_SLS,E_SLVE,E_TES,E_TEVE,Z_LSH; /FKT,%DLSA,{Lambda probe aging monitoring, OBDII} 47,ANZDPVK,ANZTP,CDCLASH,CDCLATP,CDCLATV,CDKLASH,CDKLATP,CDKLATV,CDLASH,CDLATP,CDLATV,CDTLASH,CDTLATP,CDTLATV FLCLASH,FLCLATP,FLCLATV,HLCLASH,HLCLATP,HLCLATV,LDLASH,LDLATP,LDLATV,NTPKTO,NTPKTU,NTPVKO,NTPVKU,TKTPVK,TKTVHK TLTPKTO,TLTPKTU,TLTPVKO,TLTPVKU,TSFSVK,TSTEAA,TSVKKO,TSVKKTO,TSVKKTU,TSVKKU,TSVKO,TSVKU,TVLRHMN,TVLRHMNK,TVLRHMX TVLRHMXK,TWDDTV,ZFTSVK 41,ATV,B_DLASH,B_DLATP,B_DLATV,B_DSHNF,B_DSHNM,B_DSLS,B_DSVKD,B_DTEST,B_EDKVS,B_FA,B_FASH,B_FATP,B_FATV,B_LR,B_LRHK B_ST,B_TE,B_TEHB,E_AGRF,E_ASE,E_DK,E_HSH,E_HSV,E_KAT,E_LASH,E_LATP,E_LATV,E_LM,E_PH,E_TES,E_TEVE,E_UB,F_LSASTP,N,TL Z_HSH,Z_HSV,Z_LASH,Z_LATP,Z_LATV; /FKT,%DLSSA,{Signal output lambda probes} 18,ATVFETTO,ATVFETTU,ATVMAGO,ATVMAGU,SAFK1,SAFK2,TPSVKMN,TPSVKMX,TUSPNMN,TUSPNMX,TWDLSSA,USMNSAMN,USMNSAMX,USMXSAMN USMXSAMX,USR,USSAF,USSAM 3,ATV,B_DLATP,B_LSSAEX; /FKT,%LREB,{Lambda control starting conditions} 11,DTMR,NLRSHB,NRVL,TLLRSHB,TLRAN,TLRSA,TLRSLS,TMRA1,TMRA2,TRAB,TVREM 23,B_DSLS,B_LL,B_LR,B_LR2S,B_LRHK,B_LRND,B_LRTL,B_LRVK,B_NOLRB,B_NOLRE,B_NOLRW,B_SA,B_SBBVK,B_SLS,B_ST,B_TLRSA,B_VL E_ASK,E_LSV,E_SLS,N,TL,TMOT; /FKT,%LR,{lambda control} 11,FRMAX,FRMAXSL,FRMIN,FRMINQ,ILRSLAU,ILRSLST,KFFRMIN,KFRI,KFRP,KFRTV,USR 18,B_DSLALR,B_DSLILR,B_DSLLRST,B_DTEFRR,B_FATES,B_FRMAX,B_FRMIN,B_LR,B_LRND,B_SA,B_SBBHK,ML,N,SGNLRH,TL,TVLRH X2ZDG_R,XFR; /FKT,%LRHK,{Management control with probe behind catalytic converter (OBDII)} 17,AVKATLRH,FMLKAMA,KFFTV,KFLAHK,KLLARHF,KLLARHM,KLUSLA,MLLRH,NLRHO,NLRHU,PLRHAV,QLRHKPO,TBLRH,TKATMLRH,TLRHON TLRHUN,ZLRHML 30,ATV,AVKATA,AVKATF,B_DSLS,B_EDKVS,B_LR,B_LRHK,B_LRHKP,B_SA,B_SBBHK,B_TEHB,DLASHKB,DLASHKI,E_ASE,E_HSH,E_HSV,E_KAT E_LM,E_SLPE,E_SLS,E_SLVE,E_TES,LASHK,LASHKM,ML,MLNKA,PTV,TVLRH,TVLRHI,TVLRHP; /FKT,%LRKA,{Two-point control with lambda tv: function. KAT-clearing out of oxygen} 7,CLRKA,DTVKAML,FMLKAMA,IMLKAMN,IMLKAMX,TSAKAMN,USHKAMX 6,B_DSLS,B_LR,B_SA,B_SBBHK,B_SLS,ML; /FKT,%LRA,{Adaptive precontrol for lambda control} 28,DTVMN,DTVMX,DTVRN,DTVRX,FRAMN,FRAMX,FRARN,FRARX,MLO1,MLO3,MLU2,NO1,NOLRA,NU3,TLO3,TLU2,TLU3,TLWARN,TMRAA,TRAMN TRAMX,TRARN,TRARX,TVLRA,ZKDTV,ZKFRA,ZKFRM,ZKTRA 23,B_DSLS,B_DTEST,B_GA,B_GASP,B_LR,B_LRAR,B_SLS,B_VL,E_AGRF,E_ASE,E_BM,E_DK,E_LM,E_TES,E_TEVE,E_TM,E_UB,ML,N,TL TMOT,TRADTV,XFR; /FKT,%TEB,{Tank venting depending on load} 38,DTATEH,FDMLFTEF,FFTEFVA,FRHB,FTEADAB,FTEADMN,FTEADMX,FTEAHB,FTEFHB,FTEFVAA,FTEHB,FZBFTEB,FZFTEFVA,FZQTE,FZQTEFR KFTATX,KFTEFMA,KFTEVG,KFVOVG,TATEPO,TATEPOO,TATEPU,TATEPUU,TFTEFVA,TGAZA,TMTE,TTE,TTEAE,TTEAUS,TTEGA,TTEGAINI TTEINI,TTEMN,TTEVUB,USTE,ZFTEADML,ZMLTE,ZQTEML 28,B_DSLS,B_DTES,B_FA,B_FADKVS,B_GAE,B_GASP,B_LR,B_LRTL,B_SA,B_SLS,B_START,B_TE,B_TEF,B_TEHB,B_TEI,B_TEP,B_TGAZA B_TLRSA,B_TTEAUS,B_VL,M16_256,ML,ML_H,ML_L,N,TATEI,TL,XFR; /FKT,%DTES,{Diagnose tank venting system (OBDII)} 71,AISDTE,APETEDX,APTEDX,CDTAAV,CDTES,CDTTES,CDTTESF,CDTTESG,DDPTEAR,DDPTEAV,DDPTEBR,DDPTEKO,DDPTEKU,DDPTEMR DDPTETV,DFDTEAB,DFDTEAU,DPTEBO,DPTEDUD,DPTEDWD,FKTEDGK,FLCAAV,FLCTES,FLCTESF,FLCTESG,FRMIN,FRMINQ,FSTED,GFSTEDH GGRTED,GRLABTED,GRLUFTED,GRVTED,HLCAAV,HLCTES,HLCTESF,HLCTESG,HTEDU,LDAAV,LDTES,LDTESF,LDTESG,PTEDE,PTEDOZ,QSTEDMX SFTEDA,TADTEU,TADTEVT,TDTEAM,TDTED,TDTEGR,TLTEDMX,TMDTE,TMDTEU,TNODTES,TPTEE,TTEDFRR,TTEDGK,TTEDOZ,TTEDOZG,TTEDST TTEDWD,TTEDWK,TTEDWU,TVAAV,UBTEDU,USR,ZDPTE,ZDPTES,ZDPTESK,ZDTEAB 49,B_DSLS,B_DTEA,B_DTEAAV,B_DTEABB,B_DTEABK,B_DTEABS,B_DTEB,B_DTEFRR,B_DTEG,B_DTEND,B_DTES,B_DTEST,B_DTESW,B_FA B_FATES,B_GKOMP,B_LEERTK,B_LL,B_LR,B_SLS,B_ST,B_TANKD,B_VOLLTK,DFRDTE,E_AAV,E_AAVE,E_AGRF,E_ASE,E_DK,E_DST,E_LM E_TES,E_TESF,E_TESG,E_TEVE,E_TM,E_UB,E_VFZ,E_ZO,E_ZS,TATEI,UB,VMESS,XFR,XQSOL,Z_AAV,Z_TES,Z_TESF,Z_TESG; /FKT,%DTEVE,{Diagnose; plausibility check tank venting valve - Endstufe} 6,CDCTEVE,CDKTEVE,CDTTEVE,FLCTEVE,HLCTEVE,LDTEVE 2,E_TEVE,Z_TEVE; /FKT,%DAAVE,{Diagnose; Sanity check charcoal canister shut-off valve output stage} 7,CDCAAVE,CDKAAVE,CDTAAVE,CDTES,FLCAAVE,HLCAAVE,LDAAVE 2,E_AAVE,Z_AAVE; /FKT,%DDST,{Diagnose tank pressure sensor} 8,CDDST,CDTDST,DPTEMN,DPTEMX,FLCDST,HLCDST,LDDST,TDDST 2,E_DST,Z_DST; /FKT,%DKVS,{Diagnose; plausibility check fuel supply systems} 34,CDCDTV,CDCFRA,CDCTRA,CDKDTV,CDKFRA,CDKTRA,CDTDTV,CDTFRA,CDTTRA,DTVDN,DTVDX,FLCDTV,FLCFRA,FLCTRA,FRADN,FRADX,FRAE FRARN,FRARX,HLCDTV,HLCFRA,HLCTRA,LDDTV,LDFRA,LDTRA,TFRA,TFRAZ,TRADN,TRADX,TRAE,TRARN,TRARX,TTRA,TTRAZ 14,B_BOFDTV,B_BOFFRA,B_BOFTRA,B_EDKVS,B_GAE,B_GAEFRA,B_GAETRA,B_TFRA,E_DTV,E_FRA,E_TRA,Z_DTV,Z_FRA,Z_TRA; /FKT,%DKAT,{self-diagnosis; catalyst conversion} 23,AFBKAT,AVGIX,CDCKAT,CDKAT,CDKKAT,CDTKAT,FLCKAT,HLCKAT,INIFAV,INIMDKAT,KFDKATI,KLDKTML,KLDKTTV,LAAFVMN,LDKAT LLDKTZ,TMINKAT,TWFISKAT,TWRDYKAT,ZAVKAT,ZLAAF,ZLAF,ZMGRW 28,AVKATA,AVKATF,B_ADKAT,B_DKAT,B_EDKVS,B_LR,B_SBBHK,B_TEHB,B_UKG,DAV,E_AGRF,E_ASE,E_DK,E_HSH,E_HSV,E_KAT,E_LASH E_LATP,E_LATV,E_LM,E_TES,E_TEVE,F_HG,F_KATNTL,N,TL,X_SCHAST,Z_KAT; /FKT,%DASE,{self-diagnostic; plausibility test misfire detection running smoothness} 46,AESAZAD,AVRALU,AVSAZAD,CDASE,CDCSWE,CDKSWE,CDSWE,CDTFA,CDTSWE,CNFLLTL,DMXRLU,DNALUM,DNMXZAD,DTLALUM,FABSALU FIA1ZAD,FIA2ZAD,FIAMALU,FIBSALU,FIEZAD,FIMALU,FLCSWE,FLUV1,FLUV2,FSWALUV,HLCSWE,KFAMALU,KFANALU,KFLURB,KFLURM KFTLSAL,LDSWE,LURKTM,LURMINN,NLLMX,NMIALUG,NMIZAD,NMXALU,NMXZAD,SESAZAD,TALUST,TANSLU,TLIMLUN,TLLLMX,TMOTLUA,TNALU 27,ASB,ASC,ASD,ASE,B_SA,E_BM,E_LM,E_PH,E_SWE,E_TA,E_TM,E_VFZ,FESB1,FESB2,N,TANS,TL,TMOT,VMESS,XAUSBLZ,XBS,XLUR,XSBJ XSCJ,XSDJ,XSEJ,Z_SWE; /FKT,%DASMIL,{error handling of misfire detection,control of the MIL healing} 78,AHEAGW,AHEKA,AHEKS,CDCASE,CDCASE1,CDCASE2,CDCASE3,CDCASE4,CDCASE5,CDCASK,CDCASK1,CDCASK2,CDCASK3,CDCASK4,CDCASK5 CDKASE,CDKASE1,CDKASE2,CDKASE3,CDKASE4,CDKASE5,CDKASK,CDKASK1,CDKASK2,CDKASK3,CDKASK4,CDKASK5,CDTASE,CDTASE1 CDTASE2,CDTASE3,CDTASE4,CDTASE5,CDTASK,CDTASK1,CDTASK2,CDTASK3,CDTASK4,CDTASK5,FLCASE,FLCASE1,FLCASE2,FLCASE3 FLCASE4,FLCASE5,FLCASK,FLCASK1,FLCASK2,FLCASK3,FLCASK4,FLCASK5,HLCASE,HLCASE1,HLCASE2,HLCASE3,HLCASE4,HLCASE5 HLCASK,HLCASK1,HLCASK2,HLCASK3,HLCASK4,HLCASK5,KFKSWF,LDASE,LDASE1,LDASE2,LDASE3,LDASE4,LDASE5,LDASK,LDASK1,LDASK2 LDASK3,LDASK4,LDASK5,NSTNM,TMWUC 31,E_ASE,E_ASE1,E_ASE2,E_ASE3,E_ASE4,E_ASE5,E_ASK,E_ASK1,E_ASK2,E_ASK3,E_ASK4,E_ASK5,FZABG2,FZABG3,FZABG4,FZABG5,N TL,TMOT,Z_ASE,Z_ASE1,Z_ASE2,Z_ASE3,Z_ASE4,Z_ASE5,Z_ASK,Z_ASK1,Z_ASK2,Z_ASK3,Z_ASK4,Z_ASK5; /FKT,%SLS,{secondary air control} 7,SLPE,TASLV,TMSLSO,TMSLSU,TSLDM,TSLEM,VSLS 17,B_DSLS,B_ESPE,B_KFSLP,B_SLS,B_ST,B_TSLD,B_TSLE,B_TVNULL,F_SLP,N,NMOT,TL,VMESS,XTMOTST,XTSLPMN,XZ_TSLE,XZ_TSLS; /FKT,%DSLS,{Diagnose; Secondary air system} 39,AZMFS,CDSLS,CDTSLP,CDTSLS,CDTSLV,CNFSLV,DFRSLP1,DFRSLP2,DFRSLV1,DFRSLV2,DSLSPULS,FHADSL,FLCSLP,FLCSLS,FLCSLV FRMAXSL,HLCSLP,HLCSLS,HLCSLV,ILRSLAU,ILRSLST,LDSLP,LDSLS,LDSLV,TADSLSU,TDSLP1,TDSLP2,TDSLS,TDSLST,TDSLV1,TDSLV2 TESLS,TFDSLS,TMSLS,TMSLSO,TMSSLS,TWDSLS,TWFRDSLE,TWFRDSLS 41,B_DSLALR,B_DSLILR,B_DSLLRST,B_DSLS,B_DSLSA,B_EDKVS,B_ESPE,B_FA,B_FASLS,B_FRMAX,B_FRMIN,B_LL,B_LRASDS,B_LRND B_SLS,E_AGRF,E_ASE,E_DK,E_EGC,E_LATP,E_SLP,E_SLPE,E_SLS,E_SLV,E_SLVE,E_TA,E_TES,E_TEVE,E_UB,FDKHAB,SPDFRP,SPDFRV SPSWFRP,SPSWFRV,TANS,TMOT,VMESS,XFR,Z_SLP,Z_SLS,Z_SLV; /FKT,%DSLPE,{Diagnose; Secondary Air Pump Output stage} 7,CDCSLPE,CDKSLPE,CDSLSE,CDTSLPE,FLCSLPE,HLCSLPE,LDSLPE 2,E_SLPE,Z_SLPE; /FKT,%DSLVE,{Diagnose; plausibility test Secondary Air Valve-output stage} 7,CDCSLVE,CDKSLVE,CDSLSE,CDTSLVE,FLCSLVE,HLCSLVE,LDSLVE 2,E_SLVE,Z_SLVE; /FKT,%UEMKO,{Overview emission control} 0 8,B_EDKVS,B_LR,B_SBBHK,B_SBBVK,B_TEHB,TRADTV,TVLRH,XFR; /FKT,%EDSCHEMA,{Self-Diagnosis Scheme} 0 0; /FKT,%DMIL,{OBDII; MIL-control} 1,TLAED 2,B_MILFB,N; /FKT,%DMFB,{OBDII; MIL determined by others} 9,CDTMFA,CDTMFB,NMFB,TMRZMN,TMRZMX,ZMFBAB,ZMFBK,ZMFBM,ZMFBN 7,B_MILFB,E_MFA,E_MFB,XTMFBL,XTMFBZ,Z_MFA,Z_MFB; /FKT,%DFSO,{OBDII; fault memory organization} 0 19,B_DCY,B_GAE,B_LL,B_LR2S,B_LRVK,B_NOWUC,B_SA,B_SLS,B_TEHB,B_TRP,B_VL,B_WUC,FAREADY,N,S_FS,TL,TMOT,UB,VMESS; /FKT,%DFVL,{OBDII; error management logic} 0 0; /FKT,%DCDT,{Diagnose; RB-Testercode} 0 0; /FKT,%DCDC,{OBDII; Testercode CARB} 0 0; /FKT,%DIDX,{OBDII; fault memory index} 0 0; /FKT,%DFART,{OBDII; memory error, error} 0 0; /FKT,%DWUC,{OBDII; Fulfillment of condition 'warm up cycle'} 2,TMWUC,TMWUCST 3,B_NOWUC,B_WUC,TMOT; /FKT,%DDCY,{OBDII; Fulfillment of condition 'driving cycle'} 1,TWBDCY 3,B_DCY,ST,XTWBDCY; /FKT,%DTRIP,{OBDII; Fulfillment of condition 'trip'} 4,TKATMTRP,TWTRPDCY,TWTRPLL,TWTRPST 2,B_DCY,B_LL; /FKT,%DPRL,{OBDII; Fault debouncing} 0 0; /FKT,%DDLC,{OBDII; Error Delete Counter} 1,ADSTKD 1,B_WUC; /FKT,%DHZB,{Diagnose; Frequency counter} 0 0; /FKT,%DUMW,{OBDII; environmental conditions} 0 0; /FKT,%DFRZ,{OBDII; description 'freeze frame'} 0 0; /FKT,%SCATT,{SCAN TOOL-Tester interface} 0 0; /FKT,%TC1MOD,{tester communication CARB; Mode 1} 0 0; /FKT,%TC2MOD,{tester communication CARB; Mode 2} 0 0; /FKT,%TC3MOD,{tester communication CARB; Mode 3, debounced output error code} 0 0; /FKT,%TC4MOD,{tester communication CARB; Mode 4, Delete error memory} 0 0; /FKT,%TC5MOD,{tester communcation CARB; Mode 5, output probe readings} 0 0; /FKT,%TC6MOD,{tester communcation CARB; Mode 6, output test thresholds} 0 0; /FKT,%TC7MOD,{tester communcation CARB; Mode 7, debounced output error code} 0 0; /FKT,%TCCOM,{tester communcation CARB; communication structure} 0 0; /FKT,%DIMC,{OBDII; inspection/maintenance-ready} 1,ATRPRDY 11,Z_AGRF,Z_HSH,Z_HSV,Z_KAT,Z_LASH,Z_LATP,Z_LATV,Z_LSH,Z_LSV,Z_SLS,Z_TESG; /FKT,%DECJ,{Diagnose; Endstufe CJ400} 15,CDTAAVE,CDTEGA,CDTEGB,CDTEGC,CDTEV1,CDTEV2,CDTEV3,CDTEV4,CDTEV5,CDTLDE,CDTLUEA,CDTSLVE,CDTTEVE,CDTZO,CDTZS 27,B_DESEE,B_ESDIA,E_AAVE,E_EV1,E_EV2,E_EV3,E_EV4,E_EV5,E_LDE,E_LUEA,E_SLVE,E_TEVE,E_ZO,E_ZS,UB,Z_AAVE,Z_EV1,Z_EV2 Z_EV3,Z_EV4,Z_EV5,Z_LDE,Z_LUEA,Z_SLVE,Z_TEVE,Z_ZO,Z_ZS; /FKT,%DTLE,{Diagnose; Plausibilitästprüfung Endstufegruppe (TLE)} 12,CDCEGD,CDCEGE,CDKEGD,CDKEGE,CDTEGD,CDTEGE,FLCEGD,FLCEGE,HLCEGD,HLCEGE,LDEGD,LDEGE 4,E_EGD,E_EGE,Z_EGD,Z_EGE; /FKT,%DFUE,{Diagnose; Error Code list} 199,CDCAAV,CDCAGRF,CDCCGE,CDCDF,CDCDST,CDCEGA,CDCEGB,CDCEGC,CDCEGD,CDCEGE,CDCEGF,CDCHSH,CDCHSV,CDCLDE,CDCLDO CDCLDRA,CDCLE,CDCLSH,CDCMFA,CDCMFB,CDCN,CDCSLP,CDCSLS,CDCSLV,CDCTA,CDCTES,CDCTESF,CDCTESG,CDCWFS,CDKAAV,CDKAGRF CDKBY1,CDKBY2,CDKCGE,CDKCIF,CDKDF,CDKDST,CDKEGA,CDKEGB,CDKEGC,CDKEGF,CDKHSH,CDKHSV,CDKLDE,CDKLDO,CDKLDRA,CDKLE CDKLSH,CDKLSV,CDKMFA,CDKMFB,CDKN,CDKSLP,CDKSLS,CDKSLV,CDKTA,CDKTES,CDKTESF,CDKTESG,CDKWFS,CDTAAV,CDTAAVE,CDTAGRF CDTASE,CDTASE1,CDTASE2,CDTASE3,CDTASE4,CDTASE5,CDTASK,CDTASK1,CDTASK2,CDTASK3,CDTASK4,CDTASK5,CDTBAA,CDTBM,CDTCGE CDTCIF,CDTDF,CDTDK,CDTDPL,CDTDST,CDTDTV,CDTEGA,CDTEGB,CDTEGC,CDTEGD,CDTEGE,CDTEGF,CDTEV1,CDTEV2,CDTEV3,CDTEV4 CDTEV5,CDTFRA,CDTHSH,CDTHSV,CDTKAT,CDTKRT,CDTKS1,CDTKS2,CDTLASH,CDTLATP,CDTLATV,CDTLDAB,CDTLDE,CDTLDO,CDTLDRA,CDTLE CDTLM,CDTLSV,CDTLUEA,CDTMFA,CDTMFB,CDTN,CDTPAC,CDTPH,CDTSGROM,CDTSLP,CDTSLPE,CDTSLS,CDTSLV,CDTSLVE,CDTSWE,CDTTA CDTTES,CDTTESF,CDTTESG,CDTTEVE,CDTTM,CDTTMUM,CDTTRA,CDTTX,CDTTX1S,CDTTX2S,CDTUB,CDTVFZ,CDTWFS,CDTZO,CDTZS,FLCAGRF FLCCGE,FLCCIF,FLCDST,FLCEGA,FLCEGB,FLCEGC,FLCEGF,FLCHSH,FLCHSV,FLCLDE,FLCLDO,FLCLDRA,FLCLE,FLCMFA,FLCMFB,FLCN,FLCTA FLCWFS,HLCAGRF,HLCCGE,HLCCIF,HLCDST,HLCEGA,HLCEGB,HLCEGC,HLCEGF,HLCHSH,HLCHSV,HLCLDE,HLCLDO,HLCLDRA,HLCLE,HLCMFA HLCMFB,HLCN,HLCTA,HLCWFS,LDAGRF,LDCGE,LDCIF,LDDST,LDEGA,LDEGB,LDEGC,LDEGF,LDHSH,LDHSV,LDLDE,LDLDO,LDLDRA,LDLE,LDMFA LDMFB,LDN,LDNO,LDTA,LDWFS 22,XERFLG1,XERFLG10,XERFLG11,XERFLG2,XERFLG3,XERFLG4,XERFLG5,XERFLG6,XERFLG7,XERFLG8,XERFLG9,XZFLG1,XZFLG10,XZFLG11 XZFLG2,XZFLG3,XZFLG4,XZFLG5,XZFLG6,XZFLG7,XZFLG8,XZFLG9; /FKT,%DDPL,{Diagnose; plausibility check continuous supply (OBDII)} 6,CDCDPL,CDKDPL,CDTDPL,FLCDPL,HLCDPL,LDDPL 0; /FKT,%DTEBX,{Diagnose; E-Box-Temperature} 22,CDCTX,CDCTX1S,CDCTX2S,CDKTX,CDKTX1S,CDKTX2S,CDTTX,CDTTX1S,CDTTX2S,FLCTX,FLCTX1S,FLCTX2S,HLCTX,HLCTX1S,HLCTX2S LDTX,LDTX1S,LDTX2S,TXD1S,TXD2S,TXDTFO,TXDTFU 0; /FKT,%DUBATT,{Diagnose; plausibility check U BATT (OBDII)} 10,CDCUB,CDKUB,CDTUB,FLCUB,HLCUB,LDUB,TDUB,TDUDNE,UBDMN,UBDMX 2,B_ST,UB; /FKT,%GGTFM,{Encoder size TFM temperature sensor motor (/ coolant)} 18,CDCTM,CDKTM,CDTTM,DTMDMA,DTMDMM,DTMDMMH,FLCTM,HLCTM,LDTM,TADMM,TDMM,TDTM,TDTMNF,TMDMMA,TMDMME,TMDMMN,TMDMN,TMDMX 12,B_ANFW,B_SA,B_ST,E_TA,E_TM,E_TMUM,N,TANS,TL,TMOT,XTMDMM,Z_TM; /FKT,%DTMOT,{Diagnose; plausibility check Motor temperature (OBDII)} 6,CDCTMUM,CDKTMUM,CDTTMUM,FLCTMUM,HLCTMUM,LDTMUM 2,E_TMUM,Z_TMUM; /FKT,%GGTFA,{Master variable TFA intake air temperature sensor} 17,AZPLTFA,CDCTA,CDKTA,CDTFA,CDTTA,DTAPL,FLCTA,HLCTA,LDTA,TADE,TADMN,TADMX,TADPL,TADPLG,TDNSTA,TDTA,TDTAL 19,B_FLR_MAX,B_FLR_MIN,B_LL,B_SA,B_ST,B_TFAFLR,B_TFAFLRDA,E_TA,N,TANS,TL,XAZPLTFA,XTANSORG,XTANSREF,XTDTAAUS XTDTAEIN,XTDTAPL,XTDTAPLG,Z_TA; /FKT,%DNGEB,{Diagnose; plausibility check Drehzahlsignal (OBDII)} 14,BMALMX,CDCBM,CDCN,CDKBM,CDKN,CDTBM,CDTN,FLCBM,FLCN,HLCBM,HLCN,LDBM,LDN,NGBM 1,XBMAL; /FKT,%DNWSI,{Diagnose; Error table camshaft signal} 7,ABMIPHD,CDCPH,CDKPH,CDTPH,FLCPH,HLCPH,LDPH 2,E_PH,Z_PH; /FKT,%DHFM,{Diagnose; plausibility check HFM} 15,CDCLM,CDKLM,CDTLM,FLCLM,HLCLM,KFTLWB,LDLM,MLDLLWK,MLDMN,MLDMX,NDLMLL,NDLMMN,NDLMMX,TDMLWK,TMDLL 6,B_ST,E_LM,ML,N,TMOT,Z_LM; /FKT,%DLE,{Diagnose load sensing} 13,CDCLE,CDKLE,CDTLE,DTLDLEO,DTLDLEUH,FLCLE,HLCLE,LDLE,NDLE,TADLE,TDDLE,TDDLER,TMDLE 12,B_LMRA,DTLDLE,E_DK,E_LE,E_LM,N,TDLER,TDLES,TL,TMOT,XWDKBL,Z_LE; /FKT,%DPAC,{Diagnose; AC-Pressure-Sensor} 14,CDCPAC,CDKPAC,DDPAC,FLCPAC,HLCPAC,LDPAC,PACDE,PACDMN,PACDMX,TDPAC,TMDPAC,TPLAUS1,TPLAUS2,UBDPAC 12,B_AC,B_ST,DPAC_MAX,DPAC_MIN,DPAC_PLAUS,E_PAC,S_KO,TMOT,UB,X_ACPRESS,X_AC_ORG,Z_PAC; /FKT,%DV,{Diagnose; plausibility check Geschwindigkeitssignal (OBDII)} 11,CDCVFZ,CDKVFZ,CDTVFZ,FLCVFZ,HLCVFZ,LDVFZ,NDV,TDV,TLDV,TMDV,VDMN 3,N,TL,VMESS; /FKT,%DSGROM,{Diagnose; Plausibility test controller ROM / EPROM} 6,CDCSGROM,CDKSGROM,CDTSGROM,FLCSGROM,HLCSGROM,LDSGROM 2,E_SGROM,Z_SGROM; /FKT,%DEVE,{Diagnose; Injector - Output stage} 30,CDCEV1,CDCEV2,CDCEV3,CDCEV4,CDCEV5,CDKEV1,CDKEV2,CDKEV3,CDKEV4,CDKEV5,CDTEV1,CDTEV2,CDTEV3,CDTEV4,CDTEV5,FLCEV1 FLCEV2,FLCEV3,FLCEV4,FLCEV5,HLCEV1,HLCEV2,HLCEV3,HLCEV4,HLCEV5,LDEV1,LDEV2,LDEV3,LDEV4,LDEV5 10,E_EV1,E_EV2,E_EV3,E_EV4,E_EV5,Z_EV1,Z_EV2,Z_EV3,Z_EV4,Z_EV5; /FKT,%DMLSE,{Diagnose; Output stage testing of electrical motor fan} 6,CDCLUEA,CDKLUEA,CDTLUEA,FLCLUEA,HLCLUEA,LDLUEA 2,E_LUEA,Z_LUEA; /FKT,%TKID,{tester communcation; SG-Identifikation} 0 0;